CN112987830A - Wisdom agricultural system based on thing networking - Google Patents

Abstract

The invention belongs to the technical field of intelligent agriculture, and particularly relates to an intelligent agricultural system based on the Internet of things, which comprises a terminal control center, a data acquisition module, a video monitoring module and an execution module, wherein the data acquisition module, the video monitoring module and the execution module are in signal connection with the terminal control center; because of alarm module passes through transmission module and terminal control center signal connection, terminal control center transmits the testing result to alarm module department through transmission module, because of alarm module includes LED warning light and bee calling organ, if surpass or be less than predetermined range value, the LED warning light begins the lamp that the scintillation corresponds the colour, bee calling organ sends different sounds in the same way, so that user is reminded to timely quick short range, because of terminal control center and cell-phone end and removal end signal connection, be convenient for carry the testing result of terminal control center department to cell-phone end or removal end, be convenient for the purpose of real-time long-range quick warning, and be convenient for long-range specific conditions in the big-arch shelter of looking over.

Description

Wisdom agricultural system based on thing networking

Technical Field

The invention belongs to the technical field of intelligent agriculture, and particularly relates to an intelligent agricultural system based on the Internet of things.

Background

The intelligent agriculture provides a scientific production management solution for farmers, farms and agricultural enterprises, and gives up the problems of overhigh labor cost, extensive production management and the like, and provides a standardized farming calendar template by taking key indexes in the growth cycle of crops as guidance.

The prior art has the following problems:

1. when crops are planted in the existing greenhouse and various aspects in the greenhouse are detected, if the standard is exceeded or not reached, the existing greenhouse is inconvenient to remind a user of long-distance or short-distance reminding in real time and quickly because an alarm device is not arranged, and the user is inconvenient to remotely check specific conditions in the greenhouse;

2. after each data in the greenhouse is detected, the detection values of the time period and each data cannot be analyzed and integrated, so that the requirement of a user on the growth process of crops is inconvenient, a large data is generated for analysis, and the maximization of the later-stage productivity and cost is not facilitated;

3. because of carbon dioxide is the heavy material of plant photosynthesis, in certain region, quantitative carbon dioxide is the gas material of plant photosynthesis, and the pH value of soil influences the growth of crop, because of not having in the big-arch shelter carbon dioxide and the detection and release device of the pH value of soil two, is unfavorable for the growth of crop.

In order to solve the problem, the intelligent agricultural system based on the Internet of things is provided in the application.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides an intelligent agricultural system based on the Internet of things, which has the characteristics of warning function, real-time detection of various numerical values, remote check, data integration and analysis, detection and release of the pH value of carbon dioxide and soil.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent agricultural system based on the Internet of things comprises a terminal control center, a data acquisition module, a video monitoring module and an execution module, wherein the data acquisition module, the video monitoring module and the execution module are in signal connection with the terminal control center, the data acquisition module and the video monitoring module are in signal connection with an LED display module, and the terminal control center is in signal connection with a data storage module and a mobile phone end;

the data acquisition module comprises an air temperature and humidity sensor, a soil moisture sensor, an illumination sensor, a soil temperature and humidity sensor and an air pressure sensor, and the five sensors are in signal connection with the data acquisition module;

the execution module comprises a humidifying device, a heating device, an irrigation device, an LED lamp bank and a greenhouse rolling device, and the humidifying device, the irrigation device, the LED lamp bank and the greenhouse rolling device are in signal connection with the execution module.

Preferably, the data acquisition module further comprises a carbon dioxide concentration sensor and a soil pH value sensor, and the carbon dioxide concentration sensor and the soil pH value sensor are in signal connection with the data acquisition module.

Preferably, the execution module further comprises a carbon dioxide adding device and a soil pH value adjusting device, and the carbon dioxide adding device is in signal connection with the soil pH value adjusting device.

Preferably, the data storage module is in signal connection with a data analysis module, and the data analysis module is in signal connection with a data integration module.

Preferably, the data integration module is in signal connection with a printing module, and the data storage module and the printing module are in signal connection with the data integration module through the data analysis module.

Preferably, the terminal control center is in signal connection with the mobile phone end and the mobile end.

Preferably, the intelligent agricultural system based on the Internet of things is characterized in that the terminal control center is in signal connection with an alarm module, and the terminal control center is in signal connection with a transmission module.

Preferably, the transmission module is in signal connection with the alarm module, and the terminal control center is in signal connection with the alarm module through the transmission module.

Preferably, the alarm module comprises an LED alarm lamp and a buzzer.

Preferably, the LED alarm lamp and the buzzer are electrically connected with an external power supply.

Compared with the prior art, the invention has the beneficial effects that:

1. set up the scope value of each item numerical value in terminal control center department, data acquisition module detects each item in to the big-arch shelter, and transmit the testing result to terminal control center department, because of alarm module passes through transmission module and terminal control center signal connection, terminal control center transmits the testing result to alarm module department through transmission module, because of alarm module includes LED warning light and bee calling organ, if surpass or be less than predetermined scope value, LED warning light begins the lamp that the scintillation corresponds the colour, bee calling organ sends different sounds like this, so that timely quick short-range reminds the user, because of terminal control center and cell-phone end and removal end signal connection, be convenient for carry the testing result of terminal control center department to cell-phone end or removal end, be convenient for the purpose of real-time long-range quick warning, and be convenient for long-range the specific conditions in the big-arch shelter of looking over.

2. After the data acquisition module and the video monitoring module feed back the detected values to the terminal control center, the data acquisition module is in signal connection with the data storage module, the data detected by each item are transmitted to the data storage module, the data storage module is in signal connection with the data analysis module, the data analysis module is in signal connection with the data integration module, the data are transmitted to the data analysis module and the data integration module for analysis and integration, the data integration module is in signal connection with the printing module, and the analysis and integration result is printed out through the printing module, so that large data are generated according to the data values corresponding to each time period of crop growth, and the productivity and the cost are optimized according to the large data.

3. According to the demand of planting the crop, the PH value scope of carbon dioxide concentration scope and soil is set up in terminal control center department, including carbon dioxide concentration sensor and soil PH value sensor in the data acquisition module, carbon dioxide concentration sensor and soil PH value sensor detect the carbon dioxide concentration in the big-arch shelter and the PH value of soil respectively, if carbon dioxide concentration sensor and soil PH value sensor detect out when exceeding the predetermined range, execution module starts carbon dioxide and throws the device this moment, increase the volume for carbon dioxide, and adjust the PH value of soil through soil PH value adjusting device, until adjusting carbon dioxide concentration and the PH value of soil to predetermined numerical value.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a block diagram of a data acquisition module according to the present invention;

FIG. 3 is a block diagram of an execution module according to the present invention;

FIG. 4 is a block diagram of the data storage module, the data analysis module, the data integration module, and the printing module according to the present invention;

FIG. 5 is a block diagram of a terminal control center, a transmission module and an alarm module according to the present invention;

in the figure: 1. a terminal control center; 2. a data storage module; 3. a mobile phone terminal; 4. an alarm module; 5. a data acquisition module; 6. a video monitoring module; 7. an execution module; 8. an LED display module; 9. an air temperature and humidity sensor; 10. a soil moisture sensor; 11. a carbon dioxide concentration sensor; 12. an illumination sensor; 13. a soil temperature and humidity sensor; 14. a soil pH sensor; 15. an air pressure sensor; 16. a humidifying device and a heating device; 17. an irrigation device; 18. a carbon dioxide dosing device; 19. an LED lamp group; 20. a soil pH value adjusting device; 21. a greenhouse rolling device; 22. a data analysis module; 23. a data integration module; 24. a printing module; 25. a transmission module; 26. an LED warning light; 27. a buzzer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1 to 5, the present invention provides a technical solution, an intelligent agricultural system based on internet of things: the terminal control center comprises a terminal control center 1, a data acquisition module 5, a video monitoring module 6 and an execution module 7, wherein the data acquisition module 5, the video monitoring module 6 and the execution module 7 are in signal connection with the terminal control center 1, the data acquisition module 5 and the video monitoring module 6 are in signal connection with an LED display module 8, and the terminal control center 1 is in signal connection with a data storage module 2 and a mobile phone end 3;

the data acquisition module 5 comprises an air temperature and humidity sensor 9, a soil moisture sensor 10, an illumination sensor 12, a soil temperature and humidity sensor 13 and an air pressure sensor 15, and the five sensors are in signal connection with the data acquisition module 5;

the execution module 7 comprises a humidifying device, a heating device 16, an irrigation device 17, an LED lamp set 19 and a greenhouse rolling device 21, and the four devices are in signal connection with the execution module 7.

In this embodiment: setting range values of various numerical values at a terminal control center 1, detecting various items in the greenhouse by a data acquisition module 5, transmitting detection results to the terminal control center 1, wherein the alarm module 4 is in signal connection with the terminal control center 1 through a transmission module 25, the terminal control center 1 transmits the detection results to the alarm module 4 through the transmission module 25, the alarm module 4 comprises an LED alarm lamp 26 and a buzzer 27, if the detection results exceed or fall below a preset range value, the LED alarm lamp 26 begins to flash lamps with corresponding colors, and the buzzer 27 emits different sounds similarly, so as to prompt a user in time and fast in a short range, and the terminal control center 1 is in signal connection with a mobile phone end 3 and a mobile terminal, so that the detection results at the terminal control center 1 can be conveniently transmitted to the mobile phone end 3 or the mobile terminal, the purpose of real-time long-range fast prompting is facilitated, and the specific conditions in the greenhouse can be remotely checked, after the data acquisition module 5 and the video monitoring module 6 feed back the detected values to the terminal control center 1, the terminal control center 1 is in signal connection with the data storage module 2, the detected data are transmitted to the data storage module 2, the data storage module 2 is in signal connection with the data analysis module 22, the data analysis module 22 is in signal connection with the data integration module 23, the data are transmitted to the data analysis module 22 and the data integration module 23 for analysis and integration, the data integration module 23 is in signal connection with the printing module 24, and the analysis and integration result is printed out through the printing module 24, so that a large data is generated according to the data value corresponding to each time period of crop growth, the productivity and the cost are optimized according to the large data, the carbon dioxide concentration range and the PH value range of soil are set at the terminal control center 1 according to the requirements of planted crops, because of including carbon dioxide concentration sensor 11 and soil pH value sensor 14 in the data acquisition module 5, carbon dioxide concentration sensor 11 and soil pH value sensor 14 detect the carbon dioxide concentration in the big-arch shelter and the pH value of soil respectively, if carbon dioxide concentration sensor 11 and soil pH value sensor 14 detect out when the predetermined limit, execution module 7 starts carbon dioxide and throws device 18 this moment, increases to the volume of carbon dioxide, and adjusts the pH value of soil through soil pH value adjusting device 20, until adjusting carbon dioxide concentration and the pH value of soil to predetermined numerical value.

In an optional embodiment, the data acquisition module 5 further includes a carbon dioxide sensor 11 and a soil PH sensor 14, and both the carbon dioxide sensor 11 and the soil PH sensor 14 are in signal connection with the data acquisition module 5.

In this embodiment: the carbon dioxide concentration sensor 11 and the soil pH value sensor 14 are respectively used for detecting the carbon dioxide concentration in the greenhouse and the pH value of the soil, and are convenient for later-stage judgment to meet the requirements of crops.

In an alternative embodiment, the execution module 7 further comprises a carbon dioxide dosing device 18 and a soil PH adjusting device 20, and the carbon dioxide dosing device 18 is in signal connection with the soil PH adjusting device 20.

In this embodiment: carbon dioxide adds throws device 18 and soil pH value adjusting device 20 and cooperates carbon dioxide concentration sensor 11 and soil pH value sensor 14 and use, when carbon dioxide concentration exceedes, starts carbon dioxide and adds throws device 18 and increase the carbon dioxide, when soil pH value is crossed lowly, starts soil pH value adjusting device 20 and makes soil adjustment to predetermined pH value range.

In an alternative embodiment, the data storage module 2 is in signal connection with a data analysis module 22, and the data analysis module 22 is in signal connection with a data integration module 23.

In this embodiment: the data analysis module 22 analyzes the detected data items, and the data integration module 23 integrates the analyzed data items.

In an alternative embodiment, the data integration module 23 is in signal connection with the printing module 24, and the data storage module 2 and the printing module 24 are in signal connection with the data integration module 23 through the data analysis module 22.

In this embodiment: the data of each analysis and integration is printed by the printing module 24, so that the user can conveniently check the data.

In an optional embodiment, the terminal control center 1 is in signal connection with the mobile phone terminal 3 and the mobile terminal.

In this embodiment: each item of detection data received by the terminal control center 1 is transmitted to the mobile phone end 3 and the mobile end, so that a user can conveniently and remotely check the detection data, and the mobile end comprises a tablet computer, a computer and the like.

In an alternative embodiment, the terminal control center 1 is in signal connection with the alarm module 4, and the terminal control center 1 is in signal connection with the transmission module 25.

In this embodiment: the instruction of the terminal control center 1 is transmitted to the LED alarm lamp 26 and the buzzer 27 through the transmission module 25, so that the user can know the situation in the greenhouse in time at a later stage.

In an alternative embodiment, the transmission module 25 is in signal connection with the alarm module 4, and the terminal control center 1 and the alarm module 4 are in signal connection via the transmission module 25.

In this embodiment: the transmission module 25 plays a role of instruction transmission, and starts the alarm module 4 by an instruction sent by the terminal control center 1.

In an alternative embodiment, the alarm module 4 comprises an LED alarm light 26 and a buzzer 27.

In this embodiment: the cooperation of the LED alarm lamp 26 and the buzzer 27 provides double reminding and double selection, and avoids the situation that reminding is not timely or the position is not reached.

In an alternative embodiment, the LED warning light 26 and the buzzer 27 are both electrically connected to an external power source.

In this embodiment: the LED alarm lamp 26 and the buzzer 27 are powered by an external power supply, so that real-time operation and use of the LED alarm lamp 26 and the buzzer 27 are ensured.

The working principle and the using process of the invention are as follows: the data acquisition module 5 and the video monitoring module 6 detect and monitor various data in the greenhouse, the video monitoring module 6 monitors the condition in the greenhouse, the detection of the data acquisition module 5 and the video monitoring module 6 is displayed by the LED display module 8, the relevant data can be conveniently and visually checked, and according to the requirements of planted crops, simultaneously, the air temperature and humidity sensor 9, the soil moisture sensor 10, the illumination sensor 12, the soil temperature and humidity sensor 13 and the air pressure sensor 15 respectively detect the temperature and humidity, the soil moisture, the illumination condition, the soil temperature and humidity and the air pressure value in the greenhouse, the humidifying device and the heating device 16, the irrigation device 17, the LED lamp set 19 and the greenhouse rolling device 21 can be started to be matched for use, so that various data in the greenhouse meet the requirements of the planted crops, after the data acquisition module 5 and the video monitoring module 6 feed back the detected values to the terminal control center 1, because of terminal control center 1 and data storage module 2 signal connection, data transmission with each item detection to data storage module 2 department, because data storage module 2 and data analysis module 22 signal connection, and data analysis module 22 and data integration module 23 signal connection, data transmission carries out analysis and integration to data analysis module 22 and data integration module 23 department, because data integration module 23 and printing module 24 signal connection, and print out the result of analysis integration through printing module 24, make the data value that corresponds according to each time quantum of crop growth produce a big data, be convenient for optimize productivity and cost according to this big data, set up carbon dioxide concentration range and the pH value range of soil in terminal control center 1 department, include carbon dioxide concentration sensor 11 and soil pH value sensor 14 in the data acquisition module 5, carbon dioxide concentration sensor 11 and soil pH value sensor 14 detect the carbon dioxide concentration in the big-arch shelter and soil pH value sensor 14 respectively If the PH value of the soil exceeds the preset range, the execution module 7 starts the carbon dioxide adding device 18 to increase the amount of carbon dioxide, and adjusts the PH value of the soil through the soil PH value adjusting device 20 until the carbon dioxide concentration and the PH value of the soil are adjusted to preset values, the range values of all values are set at the terminal control center 1, the data acquisition module 5 detects all the items in the greenhouse and transmits the detection result to the terminal control center 1, because the alarm module 4 is in signal connection with the terminal control center 1 through the transmission module 25, the terminal control center 1 transmits the detection result to the alarm module 4 through the transmission module 25, because the alarm module 4 comprises the LED alarm lamp 26 and the buzzer 27, if the PH value exceeds or is lower than the preset range value, the LED alarm lamp 26 begins to flash the lamp with the corresponding color, like the same, buzzer 27 sends different sounds to in time quick short range reminds the user, because of terminal control center 1 and cell-phone end 3 with remove end signal connection, be convenient for carry the testing result of terminal control center 1 department to cell-phone end 3 or remove the end, the purpose of being convenient for long-range warning in real time, and be convenient for long-range the particular case in the big-arch shelter of looking over.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a wisdom agricultural system based on thing networking, includes terminal control center (1), data acquisition module (5), video monitoring module (6) and execution module (7), data acquisition module (5) video monitoring module (6) with execution module (7) are even terminal control center (1) signal connection, its characterized in that: the data acquisition module (5) and the video monitoring module (6) are both in signal connection with an LED display module (8), and the terminal control center (1) is in signal connection with the data storage module (2) and the mobile phone end (3);

the data acquisition module (5) comprises an air temperature and humidity sensor (9), a soil moisture sensor (10), an illumination sensor (12), a soil temperature and humidity sensor (13) and an air pressure sensor (15), and the five sensors are in signal connection with the data acquisition module (5);

the execution module (7) comprises a humidifying device, a heating device (16), an irrigation device (17), an LED lamp set (19) and a greenhouse rolling device (21), and the humidifying device, the irrigation device, the LED lamp set and the greenhouse rolling device are all in signal connection with the execution module (7).

2. The internet of things-based smart agriculture system of claim 1, wherein: data acquisition module (5) still include carbon dioxide concentration sensor (11) and soil pH value sensor (14), carbon dioxide concentration sensor (11) with soil pH value sensor (14) all with data acquisition module (5) signal connection.

3. The internet of things-based smart agriculture system of claim 1, wherein: the execution module (7) further comprises a carbon dioxide adding device (18) and a soil pH value adjusting device (20), and the carbon dioxide adding device (18) is in signal connection with the soil pH value adjusting device (20).

4. The internet of things-based smart agriculture system of claim 1, wherein: the data storage module (2) is in signal connection with a data analysis module (22), and the data analysis module (22) is in signal connection with a data integration module (23).

5. The Internet of things-based smart agriculture system of claim 4, wherein: the data integration module (23) is in signal connection with a printing module (24), and the data storage module (2) and the printing module (24) are in signal connection with the data integration module (23) through the data analysis module (22).

6. The internet of things-based smart agriculture system of claim 1, wherein: and the terminal control center (1) is in signal connection with the mobile phone end (3) and the mobile end.

7. The internet of things-based smart agriculture system of claim 1, wherein: the terminal control center (1) is in signal connection with an alarm module (4), and the terminal control center (1) is in signal connection with a transmission module (25).

8. The internet of things-based smart agriculture system of claim 7, wherein: the transmission module (25) is in signal connection with the alarm module (4), and the terminal control center (1) is in signal connection with the alarm module (4) through the transmission module (25).

9. The internet of things-based smart agriculture system of claim 7, wherein: the alarm module (4) comprises an LED alarm lamp (26) and a buzzer (27).

10. The internet of things-based smart agriculture system of claim 9, wherein: the LED alarm lamp (26) and the buzzer (27) are both electrically connected with an external power supply.

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