CN106614237A - Internet based beach aquaculture pool automatic management system - Google Patents

Abstract

An internet based beach aquaculture pool automatic management system includes a photovoltaic power generation device, a core switch, a server, a control terminal, a heavy current control module, analog-digital conversion devices, a salinity sensor, an irrigation and drainage device, and a water oxygenation device; a data acquisition unit, a pre-amplification unit, a compensation circuit and an analog-digital conversion unit are arranged in each conversion device; the converted data is sent to the server through a network and is analyzed and processed by the server; while a numerical value is out of limits, an alarm is given, and a control signal is sent to the heavy current control module through the network; the water oxygenation device or the irrigation and drainage device is started to perform oxygenation or automatic water change on the pool; a weather monitoring ball machine is used for monitoring a control machine room and weather facilities; a pool monitoring ball machine is used for monitoring the situation of pool aquaculture and performing remote observation; and monitoring and control of pool water is achieved by operating and controlling the internet, the server, and the control terminal, and automatic network remote management of beach aquaculture can be achieved.

Description

Beach aquaculture pond automated management system based on internet

Technical field

The present invention relates to aquaculture monitoring and control technology, more particularly to the beach aquaculture pond based on internet is certainly Dynamicization management system, belongs to aquaculture administrative skill field.

Background technology

China coast wetland is vast in territory, and particularly Coastal beach area is all outwards increasing every year, and land resource is very It is abundant, it is that the beach aquaculture of people offers convenience, beach aquaculture is divided into sea-farming and freshwater aquiculture, for seawater Cultivation, if running into heavy rain or torrential rain, the salinity in seawater-culture pond will be reduced, further, since different regions, different seasons Section, the seawater of different periods are all not quite similar in water Inversion phenomenon, acid-base value, the seawater dissolved oxygen amount and ammonia nitrogen concentration in culturing pool Also can with culturing time, cultivation density, the change of cultural method and change, the variation of water quality index is directly connected to seawater and supports Grow the quality of product.

For freshwater aquiculture, because beach soil property salt content is higher, as culturing time increases, the salt in culturing pool is just Can increase, if long-time does not rain, or water is changed not in time, gently can then affect the quality of freshwater aquiculture product, it is heavy then can The survival rate of freshwater aquiculture product is greatly lowered, to raiser economic loss is brought, be all in the past by cultivation Jing for many years Test and manually reconnoitred to scene, decide whether to change water, the method drawback that manual site determines is more, one is that monitoring is simple, Parameter is not complete；Two is that workload is very big, and monitoring is not prompt enough, how to accomplish to carry out the water quality in sea-farming or freshwater aquiculture pond Comprehensively, systematically automation and net cybernation control, at present still in the starting stage, at present not comprehensively, there is this in existing technology Sample or such defect.

The content of the invention

It is an object of the invention to provide a kind of rational in infrastructure, data comprehensively, reflection in time, automatic aeration, automatic water-replacing, The beach aquaculture pond automation and net cybernation management system based on internet of highly versatile.

The technical problem to be solved is achieved through the following technical solutions：A kind of beach based on internet Aquaculture pond automated management system, including control machine room (1), meteorological data bus (2), photovoltaic power generation apparatus (3), transmission Optical cable (4), pool side power rack (5), water quality data bus (6), pond (7), No. two ponds (8), No. three ponds (9), a N Number pond (10), machine room cable (11), core switch (12), the first display (13), second display (14), wind speed collection Device (15), wind direction collection device for picking (16), water vapor flux harvester (17), temperature humidity harvester (18), rain collection Device (19), meteorological monitoring ball machine (20), meteorological light current rack (21), the first analog-digital commutator (22), machine room electric supply installation (23), network twisted-pair cable (24), the first optoelectronic transceivers (25), server (26), control terminal (27), photovoltaic cable (28), Second optoelectronic transceivers (29), access switch (30), pool side monitoring ball machine (31), the second analog-digital commutator (32), forceful electric power Control module (33), cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), acidity-basicity sensor (37), Ammonia nitrogen concentration sensor (38), fill drainage arrangement (39), motor cable (40), equipment for increasing oxygen content of water (41) and internet (42).

Core switch (12), machine room electric supply installation (23), server (26) and control terminal (27) constitute room facility Mechanism, wind speed harvester (15), wind direction collection device for picking (16), water vapor flux harvester (17), temperature humidity harvester (18), rain collection device (19), meteorological monitoring ball machine (20), meteorological light current rack (21) and the first analog-digital commutator (22) Constitute meteorological facility mechanism, the second optoelectronic transceivers (29), access switch (30), pool side monitoring ball machine (31), the second modulus Conversion equipment (32), heavy-current control module (33), cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), Acidity-basicity sensor (37), ammonia nitrogen concentration sensor (38), filling drainage arrangement (39) and equipment for increasing oxygen content of water (41) constitute pond Plant mechanics, core switch (12), access switch (30), server (26), control terminal (27), the first optoelectronic transceivers (25), the second optoelectronic transceivers (29), transmission cable (4), network twisted-pair cable (24) and internet (42) constitute network system.

Machine room cable (11), core switch (12), the first display (13), the second display are provided with control machine room (1) Device (14), machine room electric supply installation (23), network twisted-pair cable (24), the first optoelectronic transceivers (25), server (26) and control are eventually End (27).

The delivery outlet of machine room electric supply installation (23) by machine room cable (11) respectively with core switch (12), server (26) and control terminal (27) power port connection, core switch (12) by network twisted-pair cable (24) respectively with server (26) and control terminal (27) network mouth connection.

Control machine room (1) is externally provided with meteorological data bus (2), wind speed harvester (15), wind direction collection device for picking (16), water Vapour flux collection device (17), temperature humidity harvester (18), rain collection device (19), meteorological monitoring ball machine (20), gas As light current rack (21), the first analog-digital commutator (22), photovoltaic power generation apparatus (3) and photovoltaic cable (28).

Wind speed harvester (15), wind direction collection device for picking (16), water vapor flux harvester (17), temperature humidity collection dress Put (18) and rain collection device (19) to connect by the input port of meteorological data bus (2) and the first analog-digital commutator (22) Connect, the delivery outlet of the first analog-digital commutator (22) is connected by network twisted-pair cable (24) with the network mouth of core switch (12) Connect, the network mouth of meteorological monitoring ball machine (20) is connected by network twisted-pair cable (24) with the network mouth of core switch (12), light Volt TRT (3) is connected by photovoltaic cable (28) with the input port of machine room electric supply installation (23).

Number pond (7), No. two ponds (8), No. three ponds (9) and N ponds (10) edges are provided with pool side power rack (5), pool side monitoring ball machine (31) and fill drainage arrangement (39), be provided with pool side power rack (5) the second optoelectronic transceivers (29), Access switch (30), the second analog-digital commutator (32) and heavy-current control module (33).

The network power port of the second optoelectronic transceivers (29) is connected with the upper united mouth of access switch (30), pool side monitoring ball machine (31) network mouth, the delivery outlet of the second analog-digital commutator (32), heavy-current control module (33) input port pass through network multiple twin Line (24) is connected respectively with the network mouth of access switch (30), fills drainage arrangement (39) by motor cable (40) and forceful electric power control The delivery outlet connection of molding block (33).

A number pond (7), No. two ponds (8), it is provided with water quality data bus in No. three ponds (9) and N ponds (10) (6), cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), acidity-basicity sensor (37), ammonia nitrogen concentration Sensor (38) and equipment for increasing oxygen content of water (41).

Cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), acidity-basicity sensor (37) and ammonia nitrogen Concentration sensor (38) is connected by water quality data bus (6) with the second analog-digital commutator (32) input port, water oxygenation dress Put (41) to be connected with the delivery outlet of heavy-current control module (33) by motor cable (40).

The network power port of the first optoelectronic transceivers (25) is by network twisted-pair cable (24) and the network of core switch (12) Mouth connection, the light of the first optoelectronic transceivers (25) is sent mouth and is connect with the light of the second optoelectronic transceivers (29) by transmission cable (4) Close up and connect, the light-receiving mouth of the first optoelectronic transceivers (25) is by transmission cable (4) and the light of the second optoelectronic transceivers (29) Send mouth connection, the upper united mouth of core switch (12) is connected with internet (42), by internet (42), server (26) and The operation and control of control terminal (27), is monitored and controls to the water quality of culturing pool, realizes the automatic of beach aquaculture Change the management of networking long-range.

Due to adopting above-mentioned technical proposal, advantage for present invention and good effect to be：Beach based on internet The rational in infrastructure of aquaculture pond automated management system, data are comprehensive, reflection is timely, automatic aeration, automatic water-replacing, versatility By force, without the need for manual intervention, can be widely applied to the automation and net cybernation long-range management of beach aquaculture.

Description of the drawings

The present invention has following 4 width accompanying drawing：

Fig. 1 is the overall structure figure of the present invention,

Fig. 2 is the room facility mechanism of the present invention and meteorological plant mechanics figure,

Fig. 3 is the pond plant mechanics figure of the present invention,

Fig. 4 is the network topological diagram of the present invention.

Each numeral marked in the accompanying drawings is expressed as follows respectively：

1. machine room is controlled, 2. meteorological data bus, 3. photovoltaic power generation apparatus, 4. transmission cable, 5. pool side power rack, 6. water quality Data bus, a 7. pond, 8. No. two ponds, 9. No. three ponds, 10.N ponds, 11. machine room cables, 12. cores are exchanged Machine, 13. first displays, 14. second displays, 15. wind speed harvesters, 16. wind direction collection device for picking, 17. water vapor flux are adopted Acquisition means, 18. temperature humidity harvesters, 19. rain collection devices, 20. meteorological monitoring ball machines, 21. meteorological light current racks, 22. first analog-digital commutators, 23. machine room electric supply installations, 24. network twisted-pair cables, 25. first optoelectronic transceivers, 26. services Device, 27. control terminals, 28. photovoltaic cables, 29. second optoelectronic transceivers, 30. access switch, 31. pool side monitoring ball machines, 32. second analog-digital commutators, 33. heavy-current control modules, 34. cooling-water temperature sensors, 35. salinity sensors, 36. dissolved oxygen amounts sensing Device, 37. acidity-basicity sensors, 38. ammonia nitrogen concentration sensors, 39. fill drainage arrangement, 40. motor cables, 41. water oxygenations dress Put, 42. internets.

Specific embodiment

1. according to Fig. 1 to Fig. 3, a kind of beach aquaculture pond automated management system based on internet, including：Control Machine room (1), meteorological data bus (2), photovoltaic power generation apparatus (3), transmission cable (4), pool side power rack (5), water quality data Bus (6), pond (7), No. two ponds (8), No. three ponds (9), N ponds (10), machine room cable (11), a cores are exchanged Machine (12), the first display (13), second display (14), wind speed harvester (15), wind direction collection device for picking (16), steam lead to Amount harvester (17), temperature humidity harvester (18), rain collection device (19), meteorological monitoring ball machine (20), meteorology are weak Motor cabinet (21), the first analog-digital commutator (22), machine room electric supply installation (23), network twisted-pair cable (24), the first optoelectronic transceiver Device (25), server (26), control terminal (27), photovoltaic cable (28), the second optoelectronic transceivers (29), access switch (30), pool side monitoring ball machine (31), the second analog-digital commutator (32), heavy-current control module (33), cooling-water temperature sensor (34), salt Degree sensor (35), dissolved oxygen quantity sensor (36), acidity-basicity sensor (37), ammonia nitrogen concentration sensor (38), filling drainage arrangement (39), motor cable (40), equipment for increasing oxygen content of water (41) and internet (42).

2. core switch (12), machine room electric supply installation (23), server (26) and control terminal (27) constitute machine room and set Apply mechanism, wind speed harvester (15), wind direction collection device for picking (16), water vapor flux harvester (17), temperature humidity collection dress Put (18), rain collection device (19), meteorological monitoring ball machine (20), meteorological light current rack (21) and the first analog-digital commutator (22) constitute meteorological facility mechanism, the second optoelectronic transceivers (29), access switch (30), pool side monitoring ball machine (31), second Analog-digital commutator (32), heavy-current control module (33), cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), acidity-basicity sensor (37), ammonia nitrogen concentration sensor (38), filling drainage arrangement (39) and equipment for increasing oxygen content of water (41) are constituted Pond plant mechanics, core switch (12), access switch (30), server (26), control terminal (27), the first photoelectricity are received Send out device (25), the second optoelectronic transceivers (29), transmission cable (4), network twisted-pair cable (24) and internet (42) and constitute network system System.

3. control to be provided with machine room (1) machine room cable (11), core switch (12), the first display (13), second show Show device (14), machine room electric supply installation (23), network twisted-pair cable (24), the first optoelectronic transceivers (25), server (26) and control Terminal (27).

4. the delivery outlet of machine room electric supply installation (23) by machine room cable (11) respectively with core switch (12), server (26) and control terminal (27) power port connection, core switch (12) by network twisted-pair cable (24) respectively with server (26) and control terminal (27) network mouth connection；

5. control machine room (1) and be externally provided with meteorological data bus (2), wind speed harvester (15), wind direction collection device for picking (16), steam Flux collection device (17), temperature humidity harvester (18), rain collection device (19), meteorological monitoring ball machine (20), meteorology Light current rack (21), the first analog-digital commutator (22), photovoltaic power generation apparatus (3) and photovoltaic cable (28).

6. wind speed harvester (15), wind direction collection device for picking (16), water vapor flux harvester (17), temperature humidity collection Device (18) and rain collection device (19) are connected by the input port of meteorological data bus (2) and the first analog-digital commutator (22) Connect, the delivery outlet of the first analog-digital commutator (22) is connected by network twisted-pair cable (24) with the network mouth of core switch (12) Connect, the network mouth of meteorological monitoring ball machine (20) is connected by network twisted-pair cable (24) with the network mouth of core switch (12), light Volt TRT (3) is connected by photovoltaic cable (28) with the input port of machine room electric supply installation (23).

7. pond (7), No. two ponds (8), No. three ponds (9) and N ponds (10) edges are provided with pool side power machine Cabinet (5), pool side monitoring ball machine (31) and filling drainage arrangement (39), in pool side power rack (5) the second optoelectronic transceivers are provided with (29), access switch (30), the second analog-digital commutator (32) and heavy-current control module (33).

8. the network power port of the second optoelectronic transceivers (29) is connected with the upper united mouth of access switch (30), pool side monitoring ball The network mouth of machine (31), the delivery outlet of the second analog-digital commutator (32), heavy-current control module (33) input port are double by network Twisted wire (24) is connected respectively with the network mouth of access switch (30), fills drainage arrangement (39) by motor cable (40) and forceful electric power The delivery outlet connection of control module (33).

9. a pond (7), No. two ponds (8), be provided with water quality data bus in No. three ponds (9) and N ponds (10) (6), cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), acidity-basicity sensor (37), ammonia nitrogen concentration Sensor (38) and equipment for increasing oxygen content of water (41).

10. cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), acidity-basicity sensor (37) and Ammonia nitrogen concentration sensor (38) is connected by water quality data bus (6) with the second analog-digital commutator (32) input port, and water body increases Oxygen device (41) is connected by motor cable (40) with the delivery outlet of heavy-current control module (33).

11. first optoelectronic transceivers (25) and the second optoelectronic transceivers (29) are using double fibre transceivers, the first optoelectronic transceiver The network power port of device (25) is connected by network twisted-pair cable (24) with the network mouth of core switch (12), the first optoelectronic transceivers (25) light is sent mouth and is connected with the light-receiving mouth of the second optoelectronic transceivers (29) by transmission cable (4), the first optoelectronic transceiver The light-receiving mouth of device (25) sends mouth and is connected by transmission cable (4) with the light of the second optoelectronic transceivers (29), core switch (12) upper united mouth is connected with internet (42), by the operation of internet (42), server (26) and control terminal (27) and Control, is monitored and controls, so as to realize the automation and net cybernation long-range pipe of beach aquaculture to the water quality of culturing pool Reason.

12. core switch (12) and access switch (30) can use the switch with optic module interface, when During using the switch with optical port, the first optoelectronic transceivers (25) and the second optoelectronic transceivers (29) are replaced by optic module simultaneously In insertion optic module interface, this case is the cost for reducing the network facilities using the purpose of optoelectronic transceivers.

The data comprising each sensor are adopted inside 13. first analog-digital commutators (22) and the second analog-digital commutator (32) Collection, preposition amplification, compensation circuit and analog-to-digital conversion, the data after conversion give server (26), server by network delivery (26) it is internal to have experience database and management software, by the analysis of server, process and judgement, when data exception or numerical value Reported to the police when exceeded and control signal is passed to by heavy-current control module (33) by network, opened equipment for increasing oxygen content of water (41) Or the power supply of filling drainage arrangement (39), oxygenation or automatic water-replacing are carried out to pond body, meteorological monitoring ball machine (20) is for control machine The monitoring in room (1) and meteorological facility, pool side monitoring ball machine (31) is for the monitoring of pond culture situation and remote reviewing.

Claims (1)

1. a kind of beach aquaculture pond automated management system based on internet, including control machine room (1), meteorological data are female Line (2), photovoltaic power generation apparatus (3), transmission cable (4), pool side power rack (5), water quality data bus (6), a pond (7), No. two ponds (8), No. three ponds (9), N ponds (10), machine room cable (11), core switch (12), first show Device (13), second display (14), wind speed harvester (15), wind direction collection device for picking (16), water vapor flux harvester (17), Temperature humidity harvester (18), rain collection device (19), meteorological monitoring ball machine (20), meteorological light current rack (21), first Analog-digital commutator (22), machine room electric supply installation (23), network twisted-pair cable (24), the first optoelectronic transceivers (25), server (26), control terminal (27), photovoltaic cable (28), the second optoelectronic transceivers (29), access switch (30), pool side monitoring ball machine (31), the second analog-digital commutator (32), heavy-current control module (33), cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen Quantity sensor (36), acidity-basicity sensor (37), ammonia nitrogen concentration sensor (38), fill drainage arrangement (39), motor cable (40), Equipment for increasing oxygen content of water (41) and internet (42)；

Core switch (12), machine room electric supply installation (23), server (26) and control terminal (27) constitute room facility mechanism, Wind speed harvester (15), wind direction collection device for picking (16), water vapor flux harvester (17), temperature humidity harvester (18), Rain collection device (19), meteorological monitoring ball machine (20), meteorological light current rack (21) and the first analog-digital commutator (22) are constituted Meteorological facility mechanism, the second optoelectronic transceivers (29), access switch (30), pool side monitoring ball machine (31), the second analog-to-digital conversion Device (32), heavy-current control module (33), cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), soda acid Degree sensor (37), ammonia nitrogen concentration sensor (38), filling drainage arrangement (39) and equipment for increasing oxygen content of water (41) constitute pond facility Mechanism, core switch (12), access switch (30), server (26), control terminal (27), the first optoelectronic transceivers (25), the second optoelectronic transceivers (29), transmission cable (4), network twisted-pair cable (24) and internet (42) constitute network system；

It is characterized in that：Be provided with control machine room (1) machine room cable (11), core switch (12), the first display (13), the Two displays (14), machine room electric supply installation (23), network twisted-pair cable (24), the first optoelectronic transceivers (25), server (26) and Control terminal (27)；

The delivery outlet of machine room electric supply installation (23) by machine room cable (11) respectively with core switch (12), server (26) and Control terminal (27) power port connection, core switch (12) by network twisted-pair cable (24) respectively with server (26) and control The network mouth connection of terminal (27) processed；

Control machine room (1) is externally provided with meteorological data bus (2), wind speed harvester (15), wind direction collection device for picking (16), steam and leads to Amount harvester (17), temperature humidity harvester (18), rain collection device (19), meteorological monitoring ball machine (20), meteorology are weak Motor cabinet (21), the first analog-digital commutator (22), photovoltaic power generation apparatus (3) and photovoltaic cable (28)；

Wind speed harvester (15), wind direction collection device for picking (16), water vapor flux harvester (17), temperature humidity harvester (18) it is connected with the input port of the first analog-digital commutator (22) by meteorological data bus (2) with rain collection device (19), The delivery outlet of the first analog-digital commutator (22) is connected by network twisted-pair cable (24) with the network mouth of core switch (12), gas As the network mouth of monitoring ball machine (20) is connected by network twisted-pair cable (24) with the network mouth of core switch (12), photovoltaic is sent out Electric installation (3) is connected by photovoltaic cable (28) with the input port of machine room electric supply installation (23)；

Number pond (7), No. two ponds (8), No. three ponds (9) and N ponds (10) edges be provided with pool side power rack (5), Pool side monitoring ball machine (31) and filling drainage arrangement (39), are provided with the second optoelectronic transceivers (29), access in pool side power rack (5) Switch (30), the second analog-digital commutator (32) and heavy-current control module (33)；

The network power port of the second optoelectronic transceivers (29) is connected with the upper united mouth of access switch (30), pool side monitoring ball machine (31) Network mouth, the delivery outlet of the second analog-digital commutator (32), heavy-current control module (33) input port pass through network twisted-pair cable (24) it is connected with the network mouth of access switch (30) respectively, fills drainage arrangement (39) by motor cable (40) and heavy-current control The delivery outlet connection of module (33)；

A number pond (7), No. two ponds (8), it is provided with water quality data bus (6), water in No. three ponds (9) and N ponds (10) Temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), acidity-basicity sensor (37), ammonia nitrogen concentration sensor And equipment for increasing oxygen content of water (41) (38)；

Cooling-water temperature sensor (34), salinity sensor (35), dissolved oxygen quantity sensor (36), acidity-basicity sensor (37) and ammonia nitrogen concentration Sensor (38) is connected by water quality data bus (6) with the second analog-digital commutator (32) input port, equipment for increasing oxygen content of water (41) it is connected with the delivery outlet of heavy-current control module (33) by motor cable (40)；

The network power port of the first optoelectronic transceivers (25) is connected by network twisted-pair cable (24) with the network mouth of core switch (12) Connect, the light of the first optoelectronic transceivers (25) sends mouth by transmission cable (4) and the light-receiving mouth of the second optoelectronic transceivers (29) Connection, the light-receiving mouth of the first optoelectronic transceivers (25) is sent by transmission cable (4) with the light of the second optoelectronic transceivers (29) Mouth connection, the upper united mouth of core switch (12) is connected with internet (42).