CN203894660U - Aquatic product culture automatic oxygenation system based on Internet of things technology - Google Patents

Abstract

The utility model discloses an aquatic product culture automatic oxygenation system based on Internet of things technology. The aquatic product culture automatic oxygenation system comprises a host computer, a field control display module communicating with the host computer and at least one terminal node module communicating with the field control display module and being arranged on a surface of water. The terminal node module comprises a microprocessor, a sensor, a wireless transmit-receive module, a power supply module and an aerator, which are connected with the microprocessor. The field control display module comprises an STM32 microprocessor, another wireless transmit-receive module, an SD card module, an LCD display screen, an NFC module, an SIM 900 module and a button switch control module, which are connected with the STM32 microprocessor. According to the aquatic product culture automatic oxygenation system provided by the utility model, water environment required by aquatic product culture can be better monitored and controlled. Not only can dissolved oxygen content be adjusted automatically, fish anoxia is prevented, safety factor is increased, but also parameters can be seen on site and field storage can be realized, so that control commands can be emitted remotely and data are collected for long-term research.

Description

A kind of aquaculture automatic aeration system based on technology of Internet of things

Technical field

The utility model relates to embedded and technology of Internet of things field, particularly relates to a kind of aquaculture automatic aeration system based on technology of Internet of things.

Background technology

The scheme of tradition aquaculture water quality monitoring has a lot of limitations, such as real-time is not high, the adaptability of environment is poor, be much that the simple bound that is provided with parameter is controlled automatically, when dissolved oxygen is lower than the lower on-the-spot node control terminal node unlatching aerator that shows in limited time, when dissolved oxygen DO is higher than the upper aerator that stops in limited time, it is inadequate that energy-conservation aspect is also done.The application of the aquaculture automatic aeration system technology based on technology of Internet of things can improve real-time and the high efficiency of monitoring water environment and control, is the effective way of an aquaculture monitoring water environment network.But China develops and starts late aspect monitoring water environment.Therefore need to design a system that shows and control to scene from aquaculture monitoring water environment.

Utility model content

The problems referred to above that exist in order to solve prior art, the purpose of this utility model is to propose a kind of aquaculture automatic aeration system based on technology of Internet of things, it can effectively improve real-time and the high efficiency of monitoring water environment and control.

For achieving the above object, the utility model can be solved by the following technical programs:

A kind of aquaculture automatic aeration system based on technology of Internet of things, comprise host computer, carry out the field control display module of communication with this host computer and carry out communication with field control display module and be placed at least one the terminal node module on the water surface, this terminal node module comprises microprocessor, the sensor, radio receiving transmitting module, power module and the aerator that are connected with this microprocessor; Described field control display module comprises STM32 microprocessor, another radio receiving transmitting module, SD card module, LCD display, NFC module, SIM900 module and the keyswitch control module that are connected with this STM32 microprocessor.

As further feature of the present utility model, described sensor comprises temperature sensor, pH value sensor, dissolved oxygen sensor.

As further feature of the present utility model, described radio receiving transmitting module and another radio receiving transmitting module are ZIGBEE module.

Owing to adopting above technical scheme, compared with prior art, the beneficial effects of the utility model are: the required water environment of aquaculture can better be monitored and control to the utility model, can accomplish to see at the scene data and storage, can automatically regulate according to weather again the start of aerator, allow aerator be operated in Best Times, by electric power guarantee dissolved oxygen appropriateness still less.

Brief description of the drawings

Fig. 1 is the utility model structured flowchart;

Fig. 2 is terminal node modular structure block diagram in the utility model;

Fig. 3 is field control display module structured flowchart in the utility model.

Embodiment

Below with reference to the accompanying drawings and embodiment, the utility model is described in further detail:

As Figure 1-3, the utility model comprises host computer, carrying out communication with this host computer by GPRS network is placed in the field control display module on bank and is carried out communication and be placed in the terminal node module on the water surface by ZIGBEE network with field control display module, the quantity of terminal node module one or more, this terminal node module comprises microprocessor, the dissolved oxygen sensor 2 being connected with this microprocessor, temperature sensor 3, pH value sensor 4, radio receiving transmitting module 5 (adopting ZIGBEE module in the present embodiment), power module 6 and aerator 7, wherein power module is solar panel and high-capacity lithium battery power supply, field control display module comprises STM32 microprocessor 8, another radio receiving transmitting module 5 (being ZIGBEE module in the present embodiment), SD card module 9, LCD display 10, NFC module 11, SIM900 module 13 and the keyswitch control module 12 that are connected with this STM32 microprocessor 8, wherein SD card module 9 is for storing data, NFC module 11 is for the checking of swiping the card, the security of guarantee system, SIM900 module 13 is for carrying out communication by GPRS and host computer.The field control display module on bank is responsible for receiving by ZIGBEE module, storage, analyze data, complete in addition LCD display display parameter and the function such as communicate by letter by SIM900 module with host computer, and the weather condition of issuing according to host computer, or by keyswitch control module 12, or by built-in procedure auto-control aerator start.Host computer debugging software can complete AccessPort, network debugging, the functions such as protocol analysis and transmission control command.

In the present embodiment, terminal node module adopts MSP430F149 (in figure, sequence number 1 represents), temperature sensor 3, pH value sensor 4, dissolved oxygen sensor 2 are responsible for respectively gathering water temperature, pH value, water dissolved oxygen concentration data, frequency acquisition can be arranged by host computer, and the various data messages that collect arrive field control display module by the ZIGBEE module forwards being connected with MSP430F149 serial ports.

Field control display module adopts the microcontroller based on STM32, it is responsible for the data that collect by ZIGBEE module radio receiving terminal node module, the data that need are stored into the best effort time of being convenient to post analysis aerator in SD card 9 simultaneously, LCD display 10 can demonstrate real-time time, weather condition and water environment parameter.The dissolved oxygen value that field control display module gathers terminal node module, the dissolved oxygen DO upper lower limit value comparison of sending with host computer, if the lower limit of the dissolved oxygen DO of sending lower than host computer, sends the order of opening aerator to terminal node module, until detect that oxygen dissolving value reaches higher limit.

The state of aerator is divided into several situations.First be closed condition; Next is that this is the state of the passive oxygenation that priority is the highest when oxyty is during lower than setting value, and under this state, aerator continuous firing is until the oxyty detecting reaches the saturated higher limit of setting.In addition aerator field control display module is not only wanted the oxyty of receiving terminal node module, the data such as water temperature, also to measure Current Temperatures and receive the information such as weather tomorrow transmitting from host computer, by the start of weather condition automatic control oxygen increasing machine, this initiatively oxygenation state that is called.Initiatively oxygenation start principle is:

(1) fine day phytoplankton at noon photosynthesis is strong, should start shooting oxygenation a period of time, gives full play to effect of aerator.The hot on time of atmosphere is long, and the nice and cool on time of weather is short.

(2) sleet sky phytoplankton photosynthesis is faint, and water environment can dissolved oxygen deficiency.Night organic substance decomposing and biological consumption oxygen large, the oxygenation oxygenation of should starting shooting at midnight.

(3) start in early morning at cloudy day.

(4) there are special circumstances, the oxygenation of should starting shooting immediately.

In the time entering active oxygenation state, determine automatic aeration working time length according to weather condition.On the display module of field control simultaneously, be also provided with the fish floating head that manual start and stop button 12 prevents burst, and dissolved oxygen DO exceedes threshold alerts, the functions such as pH value abnormal alarm.

But above-mentioned embodiment is exemplary, be to be the restriction that this patent is comprised to scope in order better to make those skilled in the art can understand this patent, can not to be interpreted as; As long as any being equal to done according to spirit that this patent discloses changes or modify, all fall into the scope that this patent comprises.

Claims (3)

1. the aquaculture automatic aeration system based on technology of Internet of things, it is characterized in that: comprise host computer, the field control display module that carries out communication with this host computer, and carry out communication with field control display module and be placed at least one the terminal node module on the water surface; This terminal node module comprises microprocessor, the sensor, radio receiving transmitting module, power module and the aerator that are connected with this microprocessor; Described field control display module comprises STM32 microprocessor, another radio receiving transmitting module, SD card module, LCD display, NFC module, SIM900 module and the keyswitch control module that are connected with this STM32 microprocessor.

2. aquaculture automatic aeration system according to claim 1, is characterized in that: described sensor comprises temperature sensor, pH value sensor, dissolved oxygen sensor.

3. aquaculture automatic aeration system according to claim 1 and 2, is characterized in that: described radio receiving transmitting module and another radio receiving transmitting module are all ZIGBEE module.