CN114342787A

CN114342787A - Accurate planting management system of tobacco leaf based on thing networking control

Info

Publication number: CN114342787A
Application number: CN202210081312.4A
Authority: CN
Inventors: 刘宴涛; 秦娜
Original assignee: Jiaying University
Current assignee: Jiaying University
Priority date: 2022-01-24
Filing date: 2022-01-24
Publication date: 2022-04-15

Abstract

The invention provides an Internet of things monitoring-based tobacco precise planting management system, which comprises a tobacco planting soil detection module and a tobacco planting seed screening module, wherein soil minerals are detected through the tobacco planting soil detection module, tobacco seeds are screened through the tobacco planting seed screening module and then planted into soil qualified in detection of the tobacco planting soil detection module, the tobacco planting seed screening module is in data connection with the tobacco growth detection module, the tobacco growth detection module is in data connection with a tobacco pest control database module, the Internet of things monitoring module is in data connection with the tobacco monitoring growth state analysis module, the tobacco growth state analysis module is used for analyzing the tobacco growth state, the tobacco monitoring growth state analysis module is in data connection with the tobacco planting management data display module, and data analyzed by the tobacco monitoring growth state analysis module is displayed through the tobacco planting management data display module .

Description

Accurate planting management system of tobacco leaf based on thing networking control

Technical Field

The invention relates to the field of accurate planting management of tobacco leaves, in particular to an accurate planting management system of tobacco leaves based on Internet of things monitoring.

Background

The tobacco leaves are important raw materials for producing the tobacco, and the existing tobacco leaves have some defects in the planting process and need to be improved, and the defects are as follows:

the tobacco leaf planting management system comprises a tobacco leaf planting management system, a soil mineral detection system, a tobacco leaf disease and pest control management system, a tobacco leaf management system and a tobacco leaf management system.

Disclosure of Invention

The invention aims to: in order to achieve the above object, the present invention provides the following technical solutions: the utility model provides an accurate planting management system of tobacco leaf based on thing networking control to improve above-mentioned problem this application specifically is like: a tobacco leaf accurate planting management system based on Internet of things monitoring comprises a tobacco leaf planting soil detection module and a tobacco leaf planting seed screening module, wherein soil minerals are detected through the tobacco leaf planting soil detection module, seeds of tobacco leaves are screened through the tobacco leaf planting seed screening module and then planted into soil qualified for detection of the tobacco leaf planting soil detection module, the tobacco leaf planting seed screening module is in data connection with the tobacco leaf growth detection module, the tobacco leaf growth detection module is in data connection with the tobacco leaf pest control database module, the tobacco leaf pest control database module is in data connection with the tobacco leaf pesticide spraying module, the tobacco leaf growth detection module is in data connection with the tobacco leaf fertilizing and irrigating module, the tobacco leaf growth detection module and the tobacco leaf fertilizing and irrigating module are in data connection with the Internet of things monitoring module, and the Internet of things monitoring module is in data connection with the tobacco leaf monitoring and growing state analysis module, the tobacco leaf growth state analysis module is in data connection with the tobacco leaf planting management data display module, and the data analyzed by the tobacco leaf growth state analysis module is displayed by the tobacco leaf planting management data display module.

As the preferred technical scheme of this application, tobacco planting soil detection module includes soil moisture detecting element and soil mineral substance detecting element, soil moisture detecting element with soil mineral substance detecting element data connection, soil moisture detecting element with soil mineral substance detecting element with tobacco growth detecting module data connection.

As the preferred technical scheme of this application, tobacco leaf growth detection module includes tobacco leaf development detecting element and tobacco leaf growth detecting element that survives, tobacco leaf development detecting element with the tobacco leaf the growth detecting element data connection that survives, tobacco leaf development detecting element with the tobacco leaf the growth detecting element that survives with tobacco leaf pest control database module data connection.

As the preferred technical scheme of this application, tobacco leaf pest control database module includes tobacco leaf pest data memory unit and tobacco leaf pest diagnosis unit and tobacco leaf pest treatment unit, tobacco leaf pest diagnosis unit passes through data in the tobacco leaf pest data memory unit diagnoses the tobacco leaf pest to treat through tobacco leaf pest treatment unit, tobacco leaf pest treatment unit with the tobacco leaf pesticide sprays module data connection.

As the preferable technical scheme, the tobacco pesticide spraying module comprises a tobacco pesticide proportioning unit, a tobacco pesticide mixing unit and a pesticide spraying unit, the tobacco pesticide proportioning unit is used for proportioning the pesticides, the tobacco pesticide mixing unit is used for mixing the pesticides, and the pesticide spraying unit is used for spraying the pesticides after the pesticides are mixed.

As the preferred technical scheme of this application, thing networking monitoring module includes tobacco leaf thing networking image acquisition unit and thing networking plant diseases and insect pests control unit and thing networking irrigation unit, tobacco leaf thing networking image acquisition unit with thing networking plant diseases and insect pests control unit data connection with thing networking irrigation unit data connection.

As the preferable technical scheme, the tobacco monitoring and growth state analysis module comprises a tobacco survival rate analysis unit and a tobacco growth parameter analysis unit, and the tobacco survival rate analysis unit is in data connection with the tobacco growth parameter analysis unit.

As the preferable technical scheme, the tobacco planting seed screening module comprises a tobacco seed preselecting unit and a tobacco seed screening unit, and the tobacco seed preselecting unit is in data connection with the tobacco seed screening unit.

As the preferred technical scheme of this application, tobacco leaf fertilization irrigation module includes tobacco leaf fertilization unit and tobacco leaf irrigation unit, tobacco leaf fertilization unit with tobacco leaf irrigation unit data connection.

As the preferred technical scheme of this application, tobacco planting management data display module includes tobacco leaf generation state display element and tobacco leaf soil moisture display element and tobacco leaf plant diseases and insect pests state display element, tobacco leaf generation state display element with tobacco leaf soil moisture display element and tobacco leaf plant diseases and insect pests state display element with tobacco leaf control growth state analysis module data connection.

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

in the scheme of the application:

1. the tobacco leaf growth monitoring and irrigating module is in data connection with the Internet of things monitoring module through the tobacco leaf growth detecting module and the tobacco leaf fertilizing and irrigating module, the Internet of things monitoring module is in data connection with the tobacco leaf growth monitoring state analyzing module, the tobacco leaf growth monitoring state analyzing module analyzes the growth state of tobacco leaves through the tobacco leaf growth monitoring state analyzing module, the tobacco leaf growth monitoring state analyzing module is in data connection with the tobacco leaf planting management data display module, and data analyzed by the tobacco leaf growth monitoring state analyzing module are displayed through the tobacco leaf planting management data display module;

2. the tobacco leaf planting soil detection module is used for detecting soil minerals, tobacco leaf seeds are screened by the tobacco leaf planting seed screening module and then planted in soil qualified for detection of the tobacco leaf planting soil detection module, the tobacco leaf planting seed screening module is in data connection with the tobacco leaf growth detection module, the tobacco leaf growth detection module is in data connection with the tobacco leaf pest control database module, the tobacco leaf pest control database module is in data connection with the tobacco leaf pesticide spraying module, and pesticides are sprayed by the tobacco leaf pesticide spraying module;

3. through tobacco leaf growth detection module and tobacco leaf fertilization irrigation module data connection, tobacco leaf growth detection module with tobacco leaf fertilization irrigation module and thing networking monitoring module data connection carry out the fertilization irrigation to the tobacco leaf.

Description of the drawings:

fig. 1 is a flow chart of the structure provided in the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings. It is clear that the described embodiment is a specific implementation of the invention and is not limited to all embodiments.

Thus, the following detailed description of the embodiments of the invention is not intended to limit the scope of the invention as claimed, but is merely representative of some embodiments of the invention. 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.

As shown in figure 1, a tobacco precise planting management system based on internet of things monitoring comprises a tobacco planting soil detection module and a tobacco planting seed screening module, wherein soil minerals are detected by the tobacco planting soil detection module, seeds of tobacco are screened by the tobacco planting seed screening module and then planted in soil qualified by the tobacco planting soil detection module, the tobacco planting seed screening module is in data connection with the tobacco growth detection module, the tobacco growth detection module is in data connection with the tobacco pest control database module, the tobacco pest control database module is in data connection with the tobacco pesticide spraying module, the tobacco growth detection module is in data connection with the tobacco fertilization irrigation module, the tobacco growth detection module and the tobacco fertilization irrigation module are in data connection with the internet of things monitoring module, the system comprises an Internet of things monitoring module, a tobacco leaf monitoring growth state analysis module, a tobacco leaf planting management data display module and a tobacco leaf monitoring growth state analysis module, wherein the Internet of things monitoring module is in data connection with the tobacco leaf monitoring growth state analysis module, the tobacco leaf monitoring growth state analysis module is used for analyzing the growth state of tobacco leaves, the tobacco leaf monitoring growth state analysis module is in data connection with the tobacco leaf planting management data display module, and the data analyzed by the tobacco leaf monitoring growth state analysis module are displayed by the tobacco leaf planting management data display module.

As a preferred embodiment, on the basis of the above manner, further, the tobacco planting soil detection module includes a soil humidity detection unit and a soil mineral detection unit, the soil humidity detection unit is in data connection with the soil mineral detection unit, and the soil humidity detection unit is in data connection with the soil mineral detection unit and the tobacco growth detection module.

As a preferred embodiment, on the basis of the above manner, further, the tobacco growth detection module includes a tobacco development detection unit and a tobacco growth survival detection unit, the tobacco development detection unit is in data connection with the tobacco growth survival detection unit, and the tobacco development detection unit is in data connection with the tobacco growth survival detection unit and the tobacco pest control database module.

As a preferred embodiment, on the basis of the above manner, the database module for controlling tobacco plant diseases and insect pests further includes a tobacco plant disease and insect pest data storage unit, a tobacco plant disease and insect pest diagnosis unit and a tobacco plant disease and insect pest treatment unit, the tobacco plant disease and insect pest diagnosis unit diagnoses the tobacco plant diseases and insect pests through data in the tobacco plant disease and insect pest data storage unit and treats the tobacco plant diseases and insect pest treatment unit, and the tobacco plant disease and insect pest treatment unit is in data connection with the tobacco pesticide spraying module.

As a preferred embodiment, on the basis of the above manner, the tobacco pesticide spraying module further comprises a tobacco pesticide proportioning unit, a tobacco pesticide mixing unit and a pesticide spraying unit, wherein the tobacco pesticide proportioning unit is used for proportioning pesticides, the tobacco pesticide mixing unit is used for mixing the pesticides, and the pesticide spraying unit is used for spraying pesticides after the pesticides are mixed.

As the preferred embodiment, on the basis of the above mode, it is further that the internet of things monitoring module comprises a tobacco leaf internet of things image acquisition unit, an internet of things disease and pest monitoring unit and an internet of things irrigation unit, the tobacco leaf internet of things image acquisition unit and the internet of things disease and pest monitoring unit are in data connection with the internet of things irrigation unit.

As a preferred embodiment, on the basis of the above manner, further, the tobacco monitoring and growth state analyzing module includes a tobacco survival rate analyzing unit and a tobacco growth parameter analyzing unit, and the tobacco survival rate analyzing unit is in data connection with the tobacco growth parameter analyzing unit.

As a preferred embodiment, on the basis of the above manner, further, the tobacco planting seed screening module includes a tobacco seed preselecting unit and a tobacco seed screening unit, and the tobacco seed preselecting unit is in data connection with the tobacco seed screening unit.

As a preferred embodiment, on the basis of the above manner, further, the tobacco leaf fertilizing and irrigating module includes a tobacco leaf fertilizing unit and a tobacco leaf irrigating unit, and the tobacco leaf fertilizing unit and the tobacco leaf irrigating unit are in data connection.

As a preferred embodiment, on the basis of the above manner, the tobacco planting management data display module further includes a tobacco generation state display unit, a tobacco soil humidity display unit and a tobacco pest state display unit, and the tobacco generation state display unit, the tobacco soil humidity display unit and the tobacco pest state display unit are in data connection with the tobacco monitoring growth state analysis module.

The working principle is as follows: in the using process of the invention, soil minerals are detected by a tobacco planting soil detection module, tobacco seeds are screened by a tobacco planting seed screening module and then planted in soil qualified for detection by the tobacco planting soil detection module, the tobacco planting seed screening module is in data connection with a tobacco growth detection module, the tobacco growth detection module is in data connection with a tobacco pest control database module, the tobacco pest control database module is in data connection with a tobacco pesticide spraying module, the tobacco growth detection module is in data connection with a tobacco fertilization irrigation module, the tobacco growth detection module and the tobacco fertilization irrigation module are in data connection with an internet of things monitoring module, the internet of things monitoring module is in data connection with a tobacco monitoring growth state analysis module, and the tobacco growth state is analyzed by the tobacco monitoring growth state analysis module, the tobacco leaf monitoring and growing state analysis module is in data connection with the tobacco leaf planting management data display module, the data analyzed by the tobacco leaf monitoring and growing state analysis module is displayed by the tobacco leaf planting management data display module, the tobacco leaf planting soil detection module comprises a soil humidity detection unit and a soil mineral detection unit, the soil humidity detection unit is in data connection with the soil mineral detection unit and the tobacco leaf growing detection module, the tobacco leaf growing detection module comprises a tobacco leaf development detection unit and a tobacco leaf growth survival detection unit, the tobacco leaf development detection unit is in data connection with the tobacco leaf growth survival detection unit and the tobacco leaf pest control database module, the tobacco leaf pest control database module comprises a tobacco leaf pest data storage unit, a tobacco leaf pest diagnosis unit and a tobacco leaf pest treatment unit, the tobacco leaf pest diagnosis unit diagnoses tobacco leaf pests through data in the tobacco leaf pest data storage unit and treats the tobacco leaves pests through the tobacco leaf pest treatment unit, the tobacco leaf pest treatment unit is in data connection with the tobacco leaf pesticide spraying module, the tobacco leaf pesticide spraying module comprises a tobacco leaf pesticide proportioning unit, a tobacco leaf pesticide mixing unit and a pesticide spraying unit, the tobacco leaf pesticide proportioning unit is used for proportioning pesticides, the tobacco leaf pesticide mixing unit is used for mixing the pesticides, the pesticide spraying unit is used for spraying pesticides after mixing, the Internet of things monitoring module comprises a tobacco leaf Internet of things image acquisition unit, an Internet of things monitoring unit and an Internet of things irrigation unit, tobacco leaf thing networking image acquisition unit with thing networking plant diseases and insect pests control unit data connection, tobacco leaf thing networking image acquisition unit with thing networking plant diseases and insect pests control unit data connection with thing networking irrigation unit data connection, tobacco leaf control growth state analysis module includes tobacco leaf survival rate analysis unit and tobacco leaf growth parameter analysis unit, tobacco leaf survival rate analysis unit with tobacco leaf growth parameter analysis unit data connection, tobacco leaf planting seed screening module includes tobacco leaf seed preselection unit and tobacco leaf seed screening unit, tobacco leaf seed preselection unit with tobacco leaf seed screening unit data connection, tobacco leaf fertilization irrigation module includes tobacco leaf fertilization unit and tobacco leaf irrigation unit, tobacco leaf fertilization unit with tobacco leaf irrigation unit data connection, tobacco leaf planting management data display module includes tobacco leaf generation state display unit and tobacco leaf soil moisture display element and tobacco leaf And the disease and pest state display unit is in data connection with the tobacco leaf monitoring growth state analysis module.

The above embodiments are only used for illustrating the invention and not for limiting the technical solutions described in the invention, and although the present invention has been described in detail in the present specification with reference to the above embodiments, the present invention is not limited to the above embodiments, and therefore, any modification or equivalent replacement of the present invention is made; all such modifications and variations are intended to be included herein within the scope of this disclosure and the appended claims.

Claims

1. A tobacco precise planting management system based on Internet of things monitoring is characterized by comprising a tobacco planting soil detection module and a tobacco planting seed screening module, wherein soil minerals are detected through the tobacco planting soil detection module, seeds of tobacco are screened through the tobacco planting seed screening module and then planted into soil qualified by the tobacco planting soil detection module, the tobacco planting seed screening module is in data connection with a tobacco growth detection module, the tobacco growth detection module is in data connection with a tobacco pest control database module, the tobacco pest control database module is in data connection with a tobacco pesticide spraying module, the tobacco growth detection module is in data connection with a tobacco fertilization irrigation module, the tobacco growth detection module and the tobacco fertilization irrigation module are in data connection with the Internet of things monitoring module, the system comprises an Internet of things monitoring module, a tobacco leaf monitoring growth state analysis module, a tobacco leaf planting management data display module and a tobacco leaf monitoring growth state analysis module, wherein the Internet of things monitoring module is in data connection with the tobacco leaf monitoring growth state analysis module, the tobacco leaf monitoring growth state analysis module is used for analyzing the growth state of tobacco leaves, the tobacco leaf monitoring growth state analysis module is in data connection with the tobacco leaf planting management data display module, and the data analyzed by the tobacco leaf monitoring growth state analysis module are displayed by the tobacco leaf planting management data display module.

2. The tobacco precise planting management system based on the monitoring of the internet of things according to claim 1, wherein the tobacco planting soil detection module comprises a soil humidity detection unit and a soil mineral detection unit, the soil humidity detection unit is in data connection with the soil mineral detection unit, and the soil humidity detection unit is in data connection with the soil mineral detection unit and the tobacco growth detection module.

3. The tobacco precise planting management system based on the monitoring of the internet of things according to claim 1, wherein the tobacco growth detection module comprises a tobacco development detection unit and a tobacco growth survival detection unit, the tobacco development detection unit is in data connection with the tobacco growth survival detection unit, and the tobacco development detection unit is in data connection with the tobacco growth survival detection unit and the tobacco pest control database module.

4. The tobacco precise planting management system based on the monitoring of the Internet of things according to claim 1, wherein the tobacco pest control database module comprises a tobacco pest data storage unit, a tobacco pest diagnosis unit and a tobacco pest treatment unit, the tobacco pest diagnosis unit diagnoses tobacco pests through data in the tobacco pest data storage unit and treats the tobacco pests through the tobacco pest treatment unit, and the tobacco pest treatment unit is in data connection with the tobacco pesticide spraying module.

5. The tobacco precise planting management system based on the monitoring of the internet of things according to claim 1, wherein the tobacco pesticide spraying module comprises a tobacco pesticide proportioning unit, a tobacco pesticide mixing unit and a pesticide spraying unit, the tobacco pesticide proportioning unit is used for proportioning pesticides, the tobacco pesticide mixing unit is used for mixing the pesticides, and the pesticide spraying unit is used for spraying pesticides after the pesticides are mixed.

6. The tobacco precise planting management system based on the internet of things monitoring as claimed in claim 1, wherein the internet of things monitoring module comprises a tobacco internet of things image acquisition unit, an internet of things disease and pest monitoring unit and an internet of things irrigation unit, the tobacco internet of things image acquisition unit is in data connection with the internet of things disease and pest monitoring unit and the internet of things irrigation unit.

7. The tobacco precise planting management system based on the monitoring of the internet of things according to claim 1, wherein the tobacco monitoring growth state analysis module comprises a tobacco survival rate analysis unit and a tobacco growth parameter analysis unit, and the tobacco survival rate analysis unit is in data connection with the tobacco growth parameter analysis unit.

8. The tobacco precise planting management system based on the monitoring of the internet of things according to claim 1, wherein the tobacco planting seed screening module comprises a tobacco seed pre-selection unit and a tobacco seed screening unit, and the tobacco seed pre-selection unit is in data connection with the tobacco seed screening unit.

9. The tobacco precise planting management system based on the monitoring of the Internet of things according to claim 1, wherein the tobacco fertilization and irrigation module comprises a tobacco fertilization unit and a tobacco irrigation unit, and the tobacco fertilization unit and the tobacco irrigation unit are in data connection.

10. The tobacco precise planting management system based on the internet of things monitoring as claimed in claim 1, wherein the tobacco planting management data display module comprises a tobacco generation state display unit, a tobacco soil humidity display unit and a tobacco pest state display unit, and the tobacco generation state display unit, the tobacco soil humidity display unit and the tobacco pest state display unit are in data connection with the tobacco monitoring growth state analysis module.