CN205756560U - A kind of sensor-based height series connection aquaculture pond - Google Patents

Abstract

This utility model provides a kind of sensor-based height series connection aquaculture pond, it includes main culturing pool, Temperature-controlled appliance, oxygen increasing equipment, water quality monitoring equipment, Water-quality control equipment, feeding equipment, water inlet equipment, central control system, main culturing pool has multilamellar pair culturing pool, every layer of secondary culturing pool cubic arrangement, make full use of space, also utilize the breeding environment parameter in sensor Real-time Collection culturing pool, by computer, ambient parameter and cultivation standard are analyzed, computer sends instruction according to analysis result to other each equipment, control it to run, ensure optimal breeding environment, the culturing pool that this utility model provides has and makes full use of space, full-automatic and monitor advantage accurately.

Description

A kind of sensor-based height series connection aquaculture pond

Technical field

This utility model belongs to technical field of aquaculture equipment, particularly relates to a kind of sensor-based height series connection aquaculture pond.

Background technology

Aquaculture is the production activity breeding, cultivate and gathering in the crops aquatic animals and plants under manual control.It is commonly included in the overall process forming aquatic products under artificial breeding's management from seed.Broadly may also comprise Enhancement of fishery resources.Aquaculture has the modes such as extensive cultivation, intensive culture and high density culture.Extensive cultivation is input seed in medium and small natural water area, forms aquatic products by natural bait completely, breeds fish such as lake and reservoir and shellfish etc. is supported in shallow sea.Intensive culture is that come into operation in relatively small size pond bait throwing in, fertilizing method forms aquatic products, such as aqiuculrue, fish culture in net pen and enclosure culture, net enclosure culture etc..High density culture uses flowing water, temperature control, oxygen supplement and the methods such as high-quality bait of throwing something and feeding, and carries out high-density breeding, thus obtains high yield, such as Running Water Intensive Fish Farming, shrimp etc. in small size pond.

Sensing technology is to obtain information about from natural information source, and information is processed (conversion) and the modern science of a multi-crossed disciplines identified and engineering, it relates to sensor (also known as transducer), information processing and the planning and designing of identification, develops, make/build, test, apply and evaluate the activities such as improvement.Sensing technology with computer technology and the three big pillars being collectively known as information technology that communicate, is one of the basis of Internet of Things.

Current aquaculture, especially high density culture, it is used for cultivating famous and precious Aquatic product, famous and precious Aquatic product is very sensitive to the change of breeding environment, use artificial regulation, control breeding environment not only workload the hugest, and longevity of service, staff is caused huge workload, then causing unnecessary artificial loss, the most current aquaculture pond mostly is one layer, and unit are cultivation rate is the lowest, do not make full use of limited area, greatly waste farming site, add farming site cost, be unfavorable for the development of aquaculture.

Summary of the invention

There are the problems referred to above based on prior art, this utility model provides a kind of sensor-based height series connection aquaculture pond, it includes main culturing pool, Temperature-controlled appliance, oxygen increasing equipment, water quality monitoring equipment, Water-quality control equipment, feeding equipment, water inlet equipment, central control system, main culturing pool has multilamellar and divides culturing pool, every layer point of culturing pool cubic arrangement, make full use of space, also utilize the breeding environment parameter in sensor Real-time Collection culturing pool, by computer, ambient parameter and cultivation standard are analyzed, computer sends instruction according to analysis result to other each equipment, control it to run, ensure optimal breeding environment, the culturing pool that this utility model provides has and makes full use of space, full-automatic and monitor advantage accurately.

A kind of sensor-based height series connection aquaculture pond, it includes main culturing pool, Temperature-controlled appliance, oxygen increasing equipment, water quality monitoring equipment, Water-quality control equipment, feeding equipment, water inlet equipment, central control system；

Main culturing pool includes that multilamellar divides culturing pool, each point of culturing pool cubic arrangement, has water hole in addition to point culturing pool of the bottom at the bottom of remaining culturing pool, and water slowly can flow to lower floor's culturing pool from upper strata culturing pool；Oxygen increasing equipment includes that air exhauster and appendix, appendix surface have air vent and be laid at the bottom of culturing pool, and appendix is connected with the air exhauster of cultivation pool side；Temperature-controlled appliance includes heat-generating pipe, is positioned at main culturing pool sidewall；Oxygen increasing equipment includes aerator, is positioned at the main culturing pool water surface；Water quality monitoring equipment includes sensor, suspension device and to be arranged at the water level monitor of main cultivation pool side, sensor and suspension device one-body molded and float on the water surface；Water-quality control equipment, feeding equipment and water inlet equipment are positioned at main cultivation pool side, and are connected with central control system；Central control system includes processor (CPU), random access memory (RAM), read-only memory (ROM) and external storage, is connected with other equipment respectively by wireless or wire communication mode.

Point culturing pool quantity in main culturing pool is 3-6 layer, has water pipe and connects, by water pump, from the bottom, water is drawn into top layer between the bottom and top.

Sensor in water quality monitoring equipment also includes temperature sensor, acidity-basicity sensor, dissolved oxygen sensor, sulfide ion sensor, carbanion sensor, various sensors are for the data of Real-time Collection breeding environment, and send data to central control system.

Water quality monitoring equipment is to be used in mixed way by one or more in WiFi or bluetooth or other wireless communication modes to be connected with central control system.

Connecting water pipe between main culturing pool and water inlet equipment has water valve, by water valve can the size of regulating water flow, by computer can control water inlet open with light, inflow number, it is ensured that cultivation water level.

Also there is on water quality monitoring equipment electric charge generating means, each monitoring device is made to have identical electric charge, producing identical magnetic field about, water quality monitoring equipment can reach randomization the water surface is freely the most floating, the purpose of accurate measurements water quality environment, made by magnetic field that water quality monitoring equipment is mutually exclusive can 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 at the bottom of main culturing pool, make oxygen can be discharged into equably in whole culturing pool.

Heat-generating pipe in Temperature-controlled appliance is electric heating tube; it is additionally provided with a protective layer in heat-generating pipe periphery; arranging layer protective layer outside heat-generating pipe is possible to prevent heat-generating pipe to damage because of reasons such as foreign object collisions, and Aquatic product can also be avoided because of too close heat-generating pipe to cause scald even dead simultaneously.

Accompanying drawing explanation

Fig. 1 is a kind of sensor-based height series connection aquaculture pond plan structure figure.

Fig. 2 be a kind of sensor-based height series connection aquaculture pond main culturing pool in monolayer divide the main TV structure figure of culturing pool.

Fig. 3 is that a kind of sensor-based height series connection aquaculture pond understands that main culturing pool stereochemical structure removes the main TV structure figure of other structures for convenience.

Fig. 4 is the connection diagram of a kind of sensor-based height series connection aquaculture pond.

The wherein main culturing pool of 1-, 11-divides culturing pool, 3-oxygen increasing equipment, 4-water quality monitoring equipment, 5-Water-quality control equipment, 6-feeding equipment, 7 water inlet equipment, 8-central control system.

Detailed description of the invention

The utility model will be further described with specific embodiment below in conjunction with the accompanying drawings.

A kind of sensor-based height as shown in drawings series connection aquaculture pond, it includes main culturing pool (1), Temperature-controlled appliance, oxygen increasing equipment (3), water quality monitoring equipment (4), Water-quality control equipment (5), feeding equipment (6), water inlet equipment (7), central control system (8)；

Main culturing pool (1) includes that multilamellar divides culturing pool (11), each point of culturing pool (11) cubic arrangement, and in addition to point culturing pool (11) of the bottom, there is water hole at remaining point of culturing pool (11) end, and water slowly can flow to lower floor's culturing pool from upper strata culturing pool；Oxygen increasing equipment (3) includes that air exhauster and appendix, appendix surface have air vent and be laid at the bottom of culturing pool, and appendix is connected with the air exhauster of cultivation pool side；Temperature-controlled appliance includes heat-generating pipe, is positioned at main culturing pool (1) sidewall；Oxygen increasing equipment (3) includes aerator, is positioned at main culturing pool (1) water surface；Water quality monitoring equipment (4) includes sensor, suspension device and to be arranged at the water level monitor on main culturing pool (1) limit, sensor and suspension device one-body molded and float on the water surface；Water-quality control equipment (5), feeding equipment (6) and water inlet equipment (7) are positioned at main culturing pool (1) limit, and are connected with central control system (8)；Central control system (8) includes processor (CPU), random access memory (RAM), read-only memory (ROM) and external storage, it is connected with water quality monitoring equipment (4) by radio connection, is connected with main culturing pool (1), Temperature-controlled appliance, oxygen increasing equipment (3), Water-quality control equipment (5), feeding equipment (6), water inlet equipment (7) respectively by netting twine.

As the presently preferred embodiments, point culturing pool (11) quantity in main culturing pool (1) is 4 layers, has water pipe and connects, by water pump, from the bottom, water is drawn into top layer between the bottom and top.

As the presently preferred embodiments, the sensor in water quality monitoring equipment (4) includes temperature sensor, acidity-basicity sensor, dissolved oxygen sensor, sulfide ion sensor, carbanion sensor.

As the presently preferred embodiments, water quality monitoring equipment (4) is to be used in mixed way be connected with central control system (8) by WiFi and two kinds of wireless communication modes of bluetooth.

As the presently preferred embodiments, the connecting water pipe between main culturing pool (1) and water inlet equipment (7) has water valve, can the size of regulating water flow by water valve.

As the presently preferred embodiments, water quality monitoring equipment also has electric charge generating means on (4), makes each monitoring device have identical electric charge, is producing identical magnetic field about.

As the presently preferred embodiments, the appendix of oxygen increasing equipment (3) helical form that is square is arranged in main culturing pool (1) end.

As the presently preferred embodiments, the heat-generating pipe in Temperature-controlled appliance is electric heating tube, is additionally provided with a plastic protective layer in heat-generating pipe periphery.

First aquaculture family sets the aquatic species that will cultivate in central control system (8) and selects corresponding cultivation standard, or raiser's typing voluntarily cultivates standard accordingly.Raiser starts central control system (8), and central control system (8) sends enabled instruction to other various equipment, and other each equipment enters armed state.

Central control system (8) sends water inlet instruction to water inlet equipment (7), water inlet equipment (7) controls water valve and opens, main culturing pool (1) is entered water, level switch in water quality monitoring equipment (4) monitors and when each point of culturing pool (11) water level reaches standard, water level is arrived information and feed back to central control system (8), central control system (8) sends halt instruction to water inlet equipment (7), and water inlet equipment (7) stops water inlet.

Central control system (8) sends work order to water quality monitoring equipment (4), various sensors in water quality monitoring equipment (4) start, start the various breeding environment data gathering in main culturing pool (1), and cultivation environmental data is sent to central control system (8), environmental data is analyzed after receiving breeding environment data by central control system (8) with cultivation standard, 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, analyze water quality monitoring equipment (4) data that gather when central control system (8) to show that cultivation water sends when reaching standard and can throw in seed signal, now raiser can throw in seed in main culturing pool (1).

When the data that central control system (8) analysis water quality monitoring equipment (4) gathers show that water quality temperature is too low, heating instructions is sent to Temperature-controlled appliance, Temperature-controlled appliance starts and heats main culturing pool (1) water, and the data gathered until central control system (8) analysis water quality monitoring equipment (4) show that water temperature returns cultivation standard and till Temperature-controlled appliance sends halt instruction.

When central control system (8) analyze water quality monitoring equipment (4) data that gather obtain that in water outlet, gas concentration lwevel is too high time, carbon dioxide control instruction is sent to Water-quality control equipment (5), Water-quality control equipment (5) throws in Calx to main cultivation, and the data gathered until central control system (8) analysis water quality monitoring equipment (4) show that carbon dioxide returns cultivation standard and till Water-quality control equipment (5) sends halt instruction.

When central control system (8) analyze water quality monitoring equipment (4) data that gather obtain that in water outlet, ammonia concentration is too high time, ammonia control instruction is sent to Water-quality control equipment (5), Water-quality control equipment (5) throws in Maifanitum to main cultivation, and the data gathered until central control system (8) analysis water quality monitoring equipment (4) show that ammonia returns cultivation standard and till Water-quality control equipment (5) sends halt instruction.

When central control system (8) analyze water quality monitoring equipment (4) data that gather obtain that in water outlet, concentration of hydrogen sulfide is too high time, hydrogen sulfide control instruction is sent to Water-quality control equipment (5), Water-quality control equipment (5) throws in ferrous sulfate to main cultivation, and the data gathered until central control system (8) analysis water quality monitoring equipment (4) show that hydrogen sulfide returns cultivation standard and till Water-quality control equipment (5) sends halt instruction.

When the data that central control system (8) analysis water quality monitoring equipment (4) gathers show that oxygen in water concentration is too low, Oxygen control instruction is sent to oxygen increasing equipment (3), to main cultivation releasing oxygen, the data gathered until central control system (8) analysis water quality monitoring equipment (4), oxygen increasing equipment (3) show that dissolved oxygen returns cultivation standard and till oxygen increasing equipment (3) sends halt instruction.

When central control system (8) separates out the arrival feeding time according to cultivation standard scores, sending feeding instruction and feeding amount to feeding equipment (6), feeding equipment (6) throws in feedstuff according to instruction and feeding amount to main culturing pool (1).

Embodiment described above only have expressed a kind of embodiment of the present utility model, and it describes 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, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (7)

1. sensor-based height series connection aquaculture pond, it is characterised in that it includes main culturing pool, Temperature-controlled appliance, oxygen increasing equipment, water quality monitoring equipment, Water-quality control equipment, feeding equipment, water inlet equipment, central control system；

Main culturing pool includes that multilamellar divides culturing pool, each point of culturing pool cubic arrangement, has water hole in addition to point culturing pool of the bottom at the bottom of remaining culturing pool, and water slowly can flow to lower floor's culturing pool from upper strata culturing pool；Oxygen increasing equipment includes that air exhauster and appendix, appendix surface have air vent and be laid at the bottom of culturing pool, and appendix is connected with the air exhauster of cultivation pool side；Temperature-controlled appliance includes heat-generating pipe, is positioned at main culturing pool sidewall；Oxygen increasing equipment includes aerator, is positioned at the main culturing pool water surface；Water quality monitoring equipment includes sensor, suspension device and to be arranged at the water level monitor of main cultivation pool side, sensor and suspension device one-body molded and float on the water surface；Water-quality control equipment, feeding equipment and water inlet equipment are positioned at main cultivation pool side, and are connected with central control system；Central control system includes processor (CPU), random access memory (RAM), read-only memory (ROM) and external storage, is connected with other equipment respectively.

One the most according to claim 1 sensor-based height series connection aquaculture pond, it is characterized in that, point culturing pool quantity in described main culturing pool is 3-6 layer, has water pipe and connects, by water pump, from the bottom, water is drawn into top layer between the bottom and top.

One the most according to claim 1 sensor-based height series connection aquaculture pond, it is characterized in that, the described sensor in water quality monitoring equipment includes temperature sensor, acidity-basicity sensor, dissolved oxygen sensor, sulfide ion sensor, carbanion sensor.

One the most according to claim 1 sensor-based height series connection aquaculture pond, it is characterised in that the connecting water pipe between described main culturing pool and water inlet equipment has water valve, can the size of regulating water flow by water valve.

One the most according to claim 1 sensor-based height series connection aquaculture pond, it is characterised in that on described water quality monitoring equipment, also there is electric charge generating means.

One the most according to claim 1 sensor-based height series connection aquaculture pond, it is characterised in that the rounded helical form of appendix of described oxygen increasing equipment or square spiral shape are arranged at the bottom of main culturing pool.

One the most according to claim 1 sensor-based height series connection aquaculture pond, it is characterised in that the described heat-generating pipe in Temperature-controlled appliance is electric heating tube, is additionally provided with a protective layer in heat-generating pipe periphery.