CN204347633U - A kind of wireless sun power oxygen content monitoring system - Google Patents

Abstract

The utility model is applicable to the monitoring of water body oxygen content, provide a kind of wireless sun power oxygen content monitoring system, comprise monitoring means, Terminal Control Element and on-the-spot oxygenation unit, use solar powered monitoring means by wireless communication module by the real-time Data Transmission that monitors to Terminal Control Element, Terminal Control Element judges according to the decoding data received, again judged result is carried out display alarm and be sent to on-the-spot oxygenation unit by wireless communication module simultaneously, control the switching on and shutting down duty of on-the-spot aerator.The utility model solves the problem of aquaculture field for electrical wiring complexity, improves safe class, improves output of aquatic products, saved aquaculture cost.

Description

A kind of wireless sun power oxygen content monitoring system

Technical field

The utility model belongs to water oxygenation field, particularly relates to a kind of wireless sun power oxygen content monitoring system.

Background technology

Now commercially there is the product for the monitoring of water body oxygen level, but the plant that an area is larger, basic implementation divides region class to cultivate, and the oxygen level thus required for each aquaculture in each region kind is also different, so Real-Time Monitoring point can much and comparatively disperse.Existing oxygen level controls all to use wired power supply automatically, because monitoring point too much causes wiring complicated, not only increases cost, and there is larger potential safety hazard.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of wireless sun power oxygen content monitoring system, is intended to solve current aquaculture market and has oxygen level automatically to control product complicated for electrical wiring, there is the problems such as potential safety hazard.

The utility model is achieved in that a kind of wireless sun power oxygen content monitoring system, comprising: be laid in some monitoring means of each monitored area, Terminal Control Element and be laid in the some on-the-spot oxygenation unit of each monitored area;

Described some monitoring means all with described Terminal Control Element wireless connections, after the data collected being processed, be sent to Terminal Control Element by wireless communication protocol;

Described Terminal Control Element is all connected with described monitoring means and on-the-spot oxygenation unit wireless, for judging the decoding data receiving monitoring means transmission, and when being judged as needing oxygenation, oxygenation control signal is sent to the on-the-spot oxygenation unit of corresponding monitored area by wireless communication protocol, decoding is judged that data carry out showing and reporting to the police simultaneously;

Described some on-the-spot oxygenation unit and described Terminal Control Element wireless connections, for when receiving the oxygenation control signal of Terminal Control Element, perform oxygenation action to monitored area.

Further, described monitoring means comprises:

Temperature sensor, for monitoring and collect the temperature of monitored area;

Dissolved oxygen sensor, for monitoring and collection dissolved oxygen concentration signal;

Control module, is connected with described temperature sensor, dissolved oxygen sensor, to go forward side by side row relax, then exported by the data-signal after process for the monitor signal receiving described temperature sensor and dissolved oxygen sensor transmission;

Wireless transmitter module, is connected with described control module, for described data-signal is sent to described Terminal Control Element;

Power module, is connected with wireless transmitter module with described control module, powers for giving described control module and wireless transmitter module.

Further, the accumulator that described power supply is provided with solar panel and is charged by solar panel, passes through storage battery power supply.

Further, described terminal control module, comprising:

Wireless receiving module, for receiving data-signal that described monitoring means sends and exporting;

Control module, is connected with described wireless receiving module, for receiving the data-signal of described wireless receiving module transmission and carrying out decoding judgement, and exports an oxygenation control signal when being judged as needing oxygenation;

Wireless transmitter module, is connected with described control module, for described oxygenation control signal is sent to described on-the-spot oxygenation unit;

Display alarm module, is connected with described control module, to be presented on terminal display and to send sound and light alarm after the decoding for receiving the transmission of described control module judges data.

Further, described on-the-spot oxygenation unit, comprising:

Wireless receiving module, for receiving the oxygenation control signal of described Terminal Control Element transmission and exporting;

Control module, is connected with described wireless receiving module, for receive described wireless receiving module transmission oxygenation control signal and carry out decoding process, then by process after oxygenation control signal and export;

On-the-spot aerator, is connected with described control module, operates for carrying out start oxygenation after receiving oxygenation control signal that described control module transmits.

The utility model compared with prior art, beneficial effect is: the utility model utilizes solar powered monitoring means to monitor temperature and the dissolved oxygen amount in each aquaculture region, and send data to Terminal Control Element by wireless communication module, Terminal Control Element judges the data that each monitoring point is beamed back, wirelessly control the duty of the corresponding aerator in each monitoring point, whole system uses radio communication to carry out operation and controls, solve existing oxygen level and automatically control the problem of product for electrical wiring complexity, improve safe class, aerator switching on and shutting down operation can be carried out for each culture zone oxygen demand difference simultaneously, improve output of aquatic products.

Accompanying drawing explanation

Fig. 1 is the logical organization block diagram of the wireless sun power oxygen content monitoring system that the utility model embodiment provides;

Fig. 2 is the logical organization block diagram of the monitoring modular that the utility model embodiment provides;

Fig. 3 is the logical organization block diagram of the terminal control module that the utility model embodiment provides;

Fig. 4 is the logical organization block diagram of the on-the-spot aerator that the utility model embodiment provides.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1, for the wireless sun power oxygen content monitoring system being applicable to aquaculture market described in the utility model, comprising: be laid in some monitoring means 1 of each monitored area, Terminal Control Element 2 and be laid in the some on-the-spot oxygenation unit 3 of each monitored area;

Described some monitoring means 1 all with the wireless connections of described Terminal Control Element 2, after the data collected being processed, be sent to Terminal Control Element 2 by wireless communication protocol;

Described Terminal Control Element 2 all with described monitoring means 1 and the wireless connections of on-the-spot oxygenation unit 3, for judging the decoding data receiving monitoring means 1 transmission, and when being judged as needing oxygenation, oxygenation control signal is sent to the on-the-spot oxygenation unit 3 of corresponding monitored area by wireless communication protocol, decoding is judged that data carry out showing and reporting to the police simultaneously;

Described some on-the-spot oxygenation unit 3 and the wireless connections of described Terminal Control Element 2, for when receiving the oxygenation control signal of Terminal Control Element 2, perform oxygenation action to monitored area.

Composition graphs 1, Fig. 2, Fig. 3 and Fig. 4, temperature sensor 11 and dissolved oxygen amount sensor 12 are for monitoring temperature and the dissolved oxygen amount in aquaculture region, and monitored data are transferred to control module 13, control module 13 is transferred to wireless transmitter module 14 after receiving the laggard row relax of data, the data received are sent to wireless receiving module 21 by wireless communication protocol by wireless transmitter module 14, and power supply 15 is powered for giving control module 13 and wireless transmitter module 14, wireless receiving module 21 is transferred to control module 22 after receiving the data from wireless transmitter module 14, decoding data judges by control module 22, when being judged as needing oxygenation, oxygenation control signal is sent to wireless transmitter module 23, and decoding is judged data send display alarm module 24 to, judgement data are transferred to wireless receiving module 31 by wireless communication protocol by wireless transmitter module 23, according to the decoding that control module 22 transmits, display alarm module 24 judges that data carry out action, as shown the monitoring numerical value of each monitoring point, if numerical value over range, carry out sound and light alarm, wireless receiving module 31 is transferred to control module 32 after receiving the data of launching from wireless transmitter module 23, send to on-the-spot aerator 33 after control module 32 data received from wireless receiving module 31 judge, on-the-spot aerator 33 carries out switching on and shutting down operation according to reception from the data of control module 32.

In a particular embodiment, temperature sensor, dissolved oxygen sensor, wireless transmitter module and wireless receiving module wireless communication module used, the MCU that control module adopts is existing product on market, does not do detailed statement herein, the accumulator that power module 8 is provided with solar panel and is charged by solar panel, by storage battery power supply, this is prior art on market, does not do detailed statement.

Be below a specific embodiment:

Raiser sets each waters temperature range and oxygen content scope, in each monitoring point of plant, native system utilizes solar powered wireless senser to record temperature in the region of monitoring point and dissolved oxygen amount, and send data to terminal control system by wireless module, the data that terminal control system is returned according to the transmission of monitoring point, each road judge, if waters, monitoring point temperature and oxygen content are all in setting range, then do not need to send data to aerator, and the data monitored are being shown over the display; If certain monitoring point oxygen content is lower than setting value, this numerical value shows over the display and carries out sound and light alarm by terminal control system, the instruction simultaneously need started shooting is sent to aerator corresponding to this monitoring point, aerator starts start, carry out oxygenation operation, the wireless senser that now this monitoring point is corresponding carries out Real-Time Monitoring, data are fed back to terminal control system in time in oxygen content in limited time close in setting value, terminal control system closes the aerator of this monitoring point by wireless communication module according to real time data.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (5)

1. a wireless sun power oxygen content monitoring system, is characterized in that, comprising: be laid in some monitoring means of each monitored area, Terminal Control Element and be laid in the some on-the-spot oxygenation unit of each monitored area;

Described some monitoring means all with described Terminal Control Element wireless connections, after the data collected being processed, be sent to Terminal Control Element by wireless communication protocol;

Described Terminal Control Element is all connected with described monitoring means and on-the-spot oxygenation unit wireless, for judging the decoding data receiving monitoring means transmission, and when being judged as needing oxygenation, oxygenation control signal is sent to the on-the-spot oxygenation unit of corresponding monitored area by wireless communication protocol, decoding is judged that data carry out showing and reporting to the police simultaneously;

Described some on-the-spot oxygenation unit and described Terminal Control Element wireless connections, for when receiving the oxygenation control signal of Terminal Control Element, perform oxygenation action to monitored area.

2. wireless sun power oxygen content monitoring system as claimed in claim 1, it is characterized in that, described monitoring means comprises:

Temperature sensor, for monitoring and collect the temperature of monitored area;

Dissolved oxygen sensor, for monitoring and collection dissolved oxygen concentration signal;

Control module, is connected with described temperature sensor, dissolved oxygen sensor, to go forward side by side row relax, then exported by the data-signal after process for the monitor signal receiving described temperature sensor and dissolved oxygen sensor transmission;

Wireless transmitter module, is connected with described control module, for described data-signal is sent to described Terminal Control Element;

Power module, is connected with wireless transmitter module with described control module, powers for giving described control module and wireless transmitter module.

3. wireless sun power oxygen content monitoring system as claimed in claim 2, is characterized in that, the accumulator that described power supply is provided with solar panel and is charged by solar panel passes through storage battery power supply.

4. wireless sun power oxygen content monitoring system as claimed in claim 1, it is characterized in that, described terminal control module, comprising:

Wireless receiving module, for receiving data-signal that described monitoring means sends and exporting;

Control module, is connected with described wireless receiving module, for receiving the data-signal of described wireless receiving module transmission and carrying out decoding judgement, and exports an oxygenation control signal when being judged as needing oxygenation;

Wireless transmitter module, is connected with described control module, for described oxygenation control signal is sent to described on-the-spot oxygenation unit;

Display alarm module, is connected with described control module, to be presented on terminal display and to send sound and light alarm after the decoding for receiving the transmission of described control module judges data.

5. wireless sun power oxygen content monitoring system as claimed in claim 1, is characterized in that, described on-the-spot oxygenation unit, comprising:

Wireless receiving module, for receiving the oxygenation control signal of described Terminal Control Element transmission and exporting;

Control module, is connected with described wireless receiving module, for receive described wireless receiving module transmission oxygenation control signal and carry out decoding process, then by process after oxygenation control signal and export;

On-the-spot aerator, is connected with described control module, operates for carrying out start oxygenation after receiving oxygenation control signal that described control module transmits.