CN204482730U - Based on the aquaculture system of Internet of Things - Google Patents

Abstract

The utility model discloses a kind of aquaculture system based on Internet of Things, comprise dissolved oxygen sensor, temperature sensor, charging box, magnetic valve, aerator, blower fan, frequency converter, temperature regulating device, microprocessor, the first wireless transceiver, remote control; Described dissolved oxygen sensor, temperature sensor, temperature regulating device are arranged in culturing pool, and communication connects microprocessor, and output end of microprocessor mouth connects the first wireless transceiver, the first wireless transceiver wireless connections remote control; Microprocessor communications connects frequency converter, inverter communication connecting fan, and fan outlet connects aerator, and aerator is arranged in culturing pool, establishes charging box above culturing pool, establishes magnetic valve in charging box, and magnetic valve communication connects microprocessor.The utility model makes whole aquaculture process convenient, achieves the accurate control to temperature, dissolved oxygen content in culturing pool, and can auto feed, and bond is networked, and achieves the automation of cultivation.

Description

Based on the aquaculture system of Internet of Things

Technical field

The utility model relates to technology of Internet of things field, particularly relates to a kind of aquaculture system based on Internet of Things.

Background technology

Internet of Things is the important component part of generation information technology, and its English name is: " The Internet of things ".As its name suggests, Internet of Things is exactly the internet that thing thing is connected.This has the two-layer meaning: one, and core and the basis of Internet of Things remain internet, is the network of extension on Internet basic and expansion; Its two, its user side extend and extend between any article and article, carry out information exchange and cease mutually with the namely thing thing that communicates.More briefly, technology of Internet of things is exactly accessed network by article, the life be convenient for people to.

In aquaculture process, higher to the requirement of temperature, dissolved oxygen content, existing aquaculture is all artificial temperature control, in culturing pool, pumps into air, to solve temperature, dissolved oxygen content problem, also needs hand stock in culturing pool simultaneously.These breeding way are more coarse, and to temperature, dissolved oxygen content control part accurately, and reinforced needs manually carry out, and take time and effort, automaticity is not high.

Utility model content

The technical problem that basic background technology exists, the utility model proposes a kind of can Long-distance Control culturing pool internal environment the aquaculture system based on Internet of Things that can long-rangely feed intake.

A kind of aquaculture system based on Internet of Things that the utility model proposes, comprises dissolved oxygen sensor, temperature sensor, charging box, aerator, blower fan, frequency converter, temperature regulating device, microprocessor, the first wireless transceiver, remote control; Described dissolved oxygen sensor is arranged in culturing pool, is connected with the first signals collecting port of described microprocessor; Temperature sensor is arranged in culturing pool, gathers port be connected with described microprocessor secondary signal; Charging box is located at culturing pool top, establishes magnetic valve in charging box, and described magnetic valve is connected with the first control port of microprocessor; Frequency converter is located at outside culturing pool, and be connected with the second control port of described microprocessor, output port connecting fan, fan outlet connects described aerator, and aerator is located in culturing pool; Temperature regulating device is located in culturing pool, is connected with the 3rd control port of microprocessor; Microprocessor comprises the memory cell of preset temperature and dissolved oxygen content, comparative analysis preset temperature, dissolved oxygen content and real time temperature and dissolved oxygen content and sends the control unit of control instruction, described microprocessor communications connects the first wireless transceiver, first wireless transceiver wireless connections remote control, described remote control comprises master control unit, display unit, clock unit, the second wireless transceiver.

Preferably, described first wireless transceiver and the second wireless transceiver are based on mobile communication network, electromagnetic wireless transceiver.

Preferably, described remote control is portable handheld device.

Preferably, described microprocessor is PLC.

The aquaculture system based on Internet of Things that the utility model proposes, remote control is connected with microprocessor by the first wireless transceiver, send control instruction and instruct Microprocessor S3C44B0X frequency converter, temperature regulating device, the first electromagnetic valve work, make the preset value of the temperature in culturing pool, dissolved oxygen content and microprocessor in a rational error band, and by the long-range realization of the first magnetic valve, culturing pool is fed in raw material, make whole aquaculture convenient, bond is networked, and achieves the automation of cultivation.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of aquaculture system based on Internet of Things that the utility model proposes.

Embodiment

As shown in Figure 1, Fig. 1 is the structural representation of a kind of aquaculture system based on Internet of Things that the utility model proposes.

With reference to Fig. 1, a kind of aquaculture system based on Internet of Things that the utility model proposes, comprises dissolved oxygen sensor 1, temperature sensor 2, charging box 3, magnetic valve 9, aerator 4, blower fan 5, frequency converter 6, temperature regulating device 8, microprocessor 7, first wireless transceiver 10, remote control 11;

Described dissolved oxygen sensor 1 is arranged in culturing pool, is connected with the first signals collecting port of described microprocessor 7; Temperature sensor 2 is arranged in culturing pool, gathers port be connected with described microprocessor 7 secondary signal; Charging box 3 is located at culturing pool top, establishes magnetic valve 9 in charging box 3, and described magnetic valve 9 is connected with the first control port of microprocessor 7; Frequency converter 6 is located at outside culturing pool, is connected, output port connecting fan 5 with the second control port of described microprocessor 7, and fan outlet connects described aerator 4, and aerator 4 is located in culturing pool; Temperature regulating device 8 is located in culturing pool, is connected with the 3rd control port of microprocessor 7; Microprocessor 7 comprises the memory cell of preset temperature and dissolved oxygen content, comparative analysis preset temperature, dissolved oxygen content and real time temperature and dissolved oxygen content and sends the control unit of control instruction, the communication of described microprocessor 7 connects the first wireless transceiver 10, first wireless transceiver 10 wireless connections remote control 11, described remote control 11 comprises master control unit 111, clock unit 112, second wireless transceiver 113.

In the above-described embodiments, by dissolved oxygen sensor 1 and the dissolved oxygen content in temperature sensor 2 sensing culturing pool and temperature, and by sensing to being sent to microprocessor 7, microprocessor 7 sends request signal by the first wireless transceiver 10 to remote control 11 after comparative analysis, remote control 11 makes feedback after receiving request signal, and remote control 11 establishes clock unit 112, microprocessor 7 Controlling solenoid valve 9 is instructed according to real-time temporal information, frequency converter 6, temperature regulating device 8 works, realize reinforced in culturing pool, and to keep in culturing pool dissolved oxygen content and temperature value in rational scope.

In specific design process, described first wireless transceiver 10 and the second wireless transceiver 113 are based on mobile communication network or electromagnetic wireless transceiver.

In specific design process, described remote control 11 is portable handheld device.

In specific design process, described microprocessor 7 is PLC.

The aquaculture system based on Internet of Things that the utility model proposes, remote control is connected with microprocessor by the first wireless transceiver, send control instruction and instruct Microprocessor S3C44B0X frequency converter, temperature regulating device, electromagnetic valve work, make the preset value of the temperature in culturing pool, dissolved oxygen content and microprocessor in a rational error band, and by magnetic valve long-range realization, culturing pool is fed in raw material, make whole aquaculture convenient, bond is networked, and achieves the automation of cultivation.

The above; be only the utility model preferably embodiment; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; be equal to according to the technical solution of the utility model and utility model design thereof and replace or change, all should be encompassed within protection domain of the present utility model.

Claims (4)

1. based on an aquaculture system for Internet of Things, it is characterized in that, comprise dissolved oxygen sensor, temperature sensor, charging box, aerator, blower fan, frequency converter, temperature regulating device, microprocessor, the first wireless transceiver, remote control; Described dissolved oxygen sensor is arranged in culturing pool, is connected with the first signals collecting port of described microprocessor; Temperature sensor is arranged in culturing pool, gathers port be connected with described microprocessor secondary signal; Charging box is located at culturing pool top, establishes magnetic valve in charging box, and described magnetic valve is connected with the first control port of microprocessor; Frequency converter is located at outside culturing pool, and be connected with the second control port of described microprocessor, output port connecting fan, fan outlet connects described aerator, and aerator is located in culturing pool; Temperature regulating device is located in culturing pool, is connected with the 3rd control port of microprocessor; Microprocessor comprises the memory cell of preset temperature and dissolved oxygen content, comparative analysis preset temperature, dissolved oxygen content and real time temperature and dissolved oxygen content and sends the control unit of control instruction, described microprocessor communications connects the first wireless transceiver, first wireless transceiver wireless connections remote control, described remote control comprises master control unit, display unit, clock unit, the second wireless transceiver.

2. the aquaculture system based on Internet of Things according to claim 1, is characterized in that, described first wireless transceiver and the second wireless transceiver are based on mobile communication network or electromagnetic wireless transceiver.

3. the aquaculture system based on Internet of Things according to claim 1, is characterized in that, described remote control is portable handheld device.

4. the aquaculture system based on Internet of Things according to claim 1, is characterized in that, described microprocessor is PLC.