CN112486229A - Agricultural greenhouse planting system based on Internet of things - Google Patents

Abstract

The invention discloses an agricultural greenhouse planting system based on the Internet of things, which comprises a central processing unit, wherein an information acquisition unit, a remote control unit, an environment monitoring unit, a processing unit and a recording unit are connected to the central processing unit, a field operation system is further arranged on the central processing unit, the central processing unit is responsible for information analysis, the central processing unit is controlled by the remote control unit, the information acquisition unit comprises a temperature detection module, a humidity detection module, a light sensing module, a soil hardness detection module and a soil fertilizer detection module, the remote platform controls the central processing unit through a WiFi module and a honeycomb data module, and the field operation system is used for field operation of the central processing unit so as to control the processing unit. The invention is convenient for greenhouse production management, improves the management efficiency, reduces the labor intensity of operators, has comprehensive management, is beneficial to improving the safety of greenhouse production, further improves the yield of greenhouses, and is beneficial to popularization and use.

Description

Agricultural greenhouse planting system based on Internet of things

Technical Field

The invention relates to the field of agricultural planting, in particular to an agricultural greenhouse planting system based on the Internet of things.

Background

The greenhouse is formed by using bamboo and wood rods, cement rods, light steel pipes or pipes and other materials as a framework, manufacturing upright posts, pull rods, arch rods and pressure rods, covering a plastic film to form an arched material greenhouse, and adopting various arched circular greenhouses with large span and height in dry areas, spring coldness, deep frozen soil layers and large wind and snow in northern China. The single-span greenhouse has two forms of arched shape and ridge shape, the multi-span greenhouse covers a large area, the land is fully utilized, the temperature in the greenhouse is high, the temperature is stable, the buffering capacity is strong, but the ventilation is poor, the high-temperature and high-humidity harm or the condition of disease occurrence in the greenhouse is often caused, the management is inconvenient, the greenhouse covers a large area, the space is large, the heat effect is good, the building is easy, the manufacturing cost is low, and the single-span greenhouse is a protective facility which is widely applied at present. The greenhouse type structure can be divided into a bamboo structure, a steel structure and a mixed structure of multiple materials such as bamboo, steel and cement components according to the difference of the materials used for building the greenhouse, and the greenhouse is rapidly developed at present and is in a thin-wall steel pipe assembly type greenhouse at home, the greenhouse is produced by factories according to standard specifications, but the problems are not few in the development process, the management is troublesome and the like, and the agricultural greenhouse planting system based on the Internet of things is provided aiming at the situation.

Disclosure of Invention

The agricultural greenhouse planting system based on the Internet of things is convenient for greenhouse production management, improves management efficiency, reduces labor intensity of operating personnel, is comprehensive in management, is beneficial to improvement of greenhouse production safety, further improves greenhouse yield, is beneficial to popularization and use, can be remotely controlled, avoids disasters caused by untimely treatment of various conditions of a greenhouse, and is high in practicability.

The purpose of the invention can be realized by the following technical scheme:

an agricultural greenhouse planting system based on the Internet of things comprises a central processing unit, wherein an information acquisition unit, a remote control unit, an environment monitoring unit, a processing unit and a recording unit are connected to the central processing unit, a field operation system is further arranged on the central processing unit, and the central processing unit is responsible for information analysis and is controlled by the remote control unit so as to control the processing unit;

the information acquisition unit comprises a temperature detection module, a humidity detection module, a light sensing module, a soil hardness detection module and a soil fertilizer detection module;

the remote control unit comprises a WiFi module, a cellular data module and a remote platform, wherein the remote platform is one or more of a mobile phone app, a tablet personal computer and a computer;

the remote platform controls the central processing unit through the WiFi module, the cellular data module and the field operating system, and the field operating system is used for operating the central processing unit on the spot so as to control the processing unit.

Furthermore, the environment monitoring unit comprises an infrared sensor, an on-site monitoring device, a weather early warning device and a film breakage warning device.

Further, the processing unit comprises an irrigation module, a heating module, a fertilization module, an illumination module and a ventilation module.

Furthermore, the temperature detection module detects the temperature in the greenhouse, the temperature in the greenhouse is controlled through the heating module and the ventilation module, when the temperature needs to be increased, the heating module is started to supply heat, and when the temperature is too high, the ventilation module is started to ventilate to reduce the temperature.

Further, humidity detection module detects air and soil moisture, and when humidity was less than the demand, irrigate in to the big-arch shelter through irrigating the module, adjustment humidity.

Furthermore, the light sensation module detects the illumination intensity in the greenhouse, when the illumination intensity cannot meet the requirement of plant growth, the illumination module is used for auxiliary illumination, and when the illumination intensity is too strong, the illumination module also plays a role in shielding sunlight.

Further, soil hardness detection module detects soil hardness, and when soil hardness was too high, hardened, the warning operation personnel loosened the soil.

Further, the soil fertilizer detection module detects the content of various fertilizers and mineral substances in the soil, and reminds operators to fertilize when the requirement for plant growth cannot be met, and meanwhile, the fertilization module is used for fertilizing.

Furthermore, the infrared sensor and the field monitoring record are recorded in the recording unit, the weather early warning device warns operators in advance of coming of typhoon and earthquake conditions to reinforce the greenhouse, when the damage of the greenhouse film is detected by the film damage warning device, the weather early warning device warns the operators to timely maintain the greenhouse, and the recording unit simultaneously records the operation records of the field operation system and the remote control unit.

The invention has the beneficial effects that:

1. the invention is convenient for greenhouse production management, improves the management efficiency and reduces the labor intensity of operators;

2. the invention has comprehensive management, is beneficial to improving the production safety of the greenhouse, further improves the yield of the greenhouse and is beneficial to popularization and use;

3. the invention avoids disasters caused by untimely treatment of various conditions of the greenhouse and has strong practicability.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural diagram of an agricultural greenhouse planting system based on the Internet of things;

FIG. 2 is a schematic diagram of an information acquisition unit according to the present invention;

FIG. 3 is a schematic diagram of the remote control unit of the present invention;

FIG. 4 is a schematic diagram of an environment monitoring unit according to the present invention;

FIG. 5 is a schematic diagram of a processing unit according to the present invention.

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.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

The utility model provides an agricultural greenhouse system of planting based on thing networking, includes central processing unit 1, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, central processing unit 1 is last to be connected with information acquisition unit 2, remote control unit 3, environmental monitoring unit 4, processing unit 5 and record unit 6, still is equipped with on-the-spot operating system 11 on the central processing unit 1, and thereby central processing unit 1 is responsible for the analysis of information, thereby controls processing unit 5 through remote control unit 3 control central processing unit 1.

The information acquisition unit 2 comprises a temperature detection module 21, a humidity detection module 22, a light sensing module 23, a soil hardness detection module 24 and a soil fertilizer detection module 25.

The remote control unit 3 includes a WiFi module 31, a cellular data module 32, and a remote platform 33, and the remote platform 33 is one or more of a mobile app, a tablet computer, and a computer.

The remote platform 33 controls the central processing unit 1 through the WiFi module 31 and the cellular data module 32, and the field operation system 11 is used for field operation of the central processing unit 1, thereby controlling the processing unit 5.

The environment monitoring unit 4 includes an infrared sensor 41, a site monitor 42, a weather precaution device 43, and a film breakage alarm 44.

The processing unit 5 comprises an irrigation module 51, a heating module 52, a fertilization module 53, an illumination module 54 and a ventilation module 55.

The temperature detection module 21 detects the temperature in the greenhouse, the temperature in the greenhouse is controlled through the heating module 52 and the ventilation module 55, when the temperature needs to be increased, the heating module 52 is started to heat, and when the temperature is too high, the ventilation module 55 is started to ventilate to reduce the temperature.

Humidity detection module 22 detects air and soil humidity, and when humidity was less than the demand, irrigate in the big-arch shelter through irrigating module 51, the adjustment humidity.

The light sensing module 23 detects the illumination intensity in the greenhouse, when the illumination intensity can not reach the requirement of plant growth, the illumination module 54 is used for auxiliary illumination, and when the illumination intensity is too strong, the illumination module 54 also plays a role of shading the sunlight.

Soil hardness detection module 24 detects soil hardness, and when soil hardness was too high, hardened, the warning operation personnel loosened the soil.

The soil fertilizer detection module 25 detects the content of various fertilizers and minerals in the soil, and when the requirement of plant growth cannot be met, the operator is reminded to fertilize, and meanwhile, the fertilization module 53 is used for fertilizing.

The infrared sensor 41 and the field monitor 42 record people and animals moving around the greenhouse, the people and animals are recorded in the recording unit 6, the weather early warning device 43 warns operators in advance of coming of typhoon and earthquake conditions to reinforce the greenhouse, the film damage alarm 44 warns the operators when detecting the damage of the greenhouse film, the operators can maintain the greenhouse in time, and the recording unit 6 records the operation records of the field operation system 11 and the remote control unit 3 at the same time.

Example 1

An agricultural greenhouse planting system based on the Internet of things comprises a central processing unit 1, wherein an information acquisition unit 2, a remote control unit 3, an environment monitoring unit 4, a processing unit 5 and a recording unit 6 are connected to the central processing unit 1, a field operation system 11 is further arranged on the central processing unit 1, the central processing unit 1 is responsible for information analysis, the central processing unit 1 is controlled by the remote control unit 3 to control the processing unit 5, the information acquisition unit 2 comprises a temperature detection module 21, a humidity detection module 22, a light sensing module 23, a soil hardness detection module 24 and a soil fertilizer detection module 25, the remote control unit 3 comprises a WiFi module 31, a honeycomb data module 32 and a remote platform 33, the remote platform 33 is one or more of a mobile phone app, a tablet computer and a computer, the remote platform 33 is connected with the WiFi module 31 and the honeycomb data module 32, control central processing unit 1, on-the-spot operating system 11 is used for on-the-spot operation central processing unit 1, thereby control processing unit 5, environment monitoring unit 4 includes infrared inductor 41, on-the-spot control 42, weather precaution device 43 and film damage warning 44, processing unit 5 includes irrigation module 51, heating module 52, fertilization module 53, illumination module 54 and ventilation module 55, temperature detection module 21, detect the temperature in the big-arch shelter, control the temperature in the big-arch shelter through heating module 52 and ventilation module 55, when the temperature needs to improve, open heating module 52 and heat, when the temperature is too high, open ventilation module 55 and ventilate and reduce the temperature.

When the humidity detection module 22 detects air and soil humidity and the humidity is smaller than the requirement, the greenhouse is irrigated through the irrigation module 51, and the humidity is adjusted.

When the light sensing module 23 detects the illumination intensity in the greenhouse, the illumination module 54 is used for auxiliary illumination when the illumination intensity can not reach the requirement of plant growth, and when the illumination intensity is too strong, the illumination module 54 also plays a role of shielding the sunlight.

Detect soil hardness when soil hardness detection module 24, when soil hardness is too high, when hardening, remind the operation personnel to loosen the soil.

When the soil fertilizer detection module 25 detects the content of various fertilizers and minerals in the soil, when the requirement of plant growth cannot be met, the operator is reminded to fertilize, and meanwhile, the fertilization module 53 is used for fertilizing.

When the infrared sensor 41 and the field monitor 42 record people and animals moving around the greenhouse and record the people and animals in the recording unit 6, the weather early warning device 43 warns operators in advance of the coming of typhoon and earthquake conditions to reinforce the greenhouse, and the film damage alarm 44 detects the damage of the greenhouse film, the operators are warned to maintain the greenhouse in time, and the recording unit 6 records the operation records of the field operation system 11 and the remote control unit 3 at the same time.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (9)

1. An agricultural greenhouse planting system based on the Internet of things comprises a central processing unit (1), and is characterized in that the central processing unit (1) is connected with an information acquisition unit (2), a remote control unit (3), an environment monitoring unit (4), a processing unit (5) and a recording unit (6), the central processing unit (1) is also provided with a field operation system (11), the central processing unit (1) is responsible for analyzing information, and the central processing unit (1) is controlled through the remote control unit (3) so as to control the processing unit (5);

the information acquisition unit (2) comprises a temperature detection module (21), a humidity detection module (22), a light sensing module (23), a soil hardness detection module (24) and a soil fertilizer detection module (25);

the remote control unit (3) comprises a WiFi module (31), a cellular data module (32) and a remote platform (33), wherein the remote platform (33) is one or more of a mobile phone app, a tablet computer and a computer;

the remote platform (33) controls the central processing unit (1) through the WiFi module (31) and the cellular data module (32), and the field operation system (11) is used for operating the central processing unit (1) on the spot, so as to control the processing unit (5).

2. An Internet of things-based agricultural greenhouse planting system as claimed in claim 1, wherein the environment monitoring unit (4) comprises an infrared sensor (41), a field monitor (42), a weather precaution device (43) and a film breakage alarm (44).

3. An internet of things based agricultural greenhouse planting system according to claim 1, wherein the processing unit (5) comprises an irrigation module (51), a heating module (52), a fertilization module (53), an illumination module (54) and a ventilation module (55).

4. The agricultural greenhouse planting system based on the Internet of things as claimed in claim 1, wherein the temperature detection module (21) detects the temperature in the greenhouse, the heating module (52) and the ventilation module (55) are used for controlling the temperature in the greenhouse, when the temperature needs to be increased, the heating module (52) is started for heating, and when the temperature is too high, the ventilation module (55) is started for ventilation to reduce the temperature.

5. The agricultural greenhouse planting system based on the Internet of things of claim 1, wherein the humidity detection module (22) detects air and soil humidity, and when the humidity is smaller than the requirement, the irrigation module (51) irrigates the interior of the greenhouse to adjust the humidity.

6. The agricultural greenhouse planting system based on the Internet of things as claimed in claim 1, wherein the light sensation module (23) detects the illumination intensity in the greenhouse, when the illumination intensity cannot meet the requirement of plant growth, the illumination module (54) is used for auxiliary illumination, and when the illumination intensity is too strong, the illumination module (54) also plays a role in shielding the sunlight.

7. The agricultural greenhouse planting system based on the Internet of things as claimed in claim 1, wherein the soil hardness detection module (24) detects soil hardness, and when the soil hardness is too high and hardened, an operator is reminded to loosen the soil.

8. The agricultural greenhouse planting system based on the Internet of things of claim 1, wherein the soil fertilizer detection module (25) detects the content of various fertilizers and minerals in soil, and when the requirement for plant growth cannot be met, an operator is reminded to fertilize, and meanwhile, the fertilization module (53) is used for fertilization.

9. The Internet of things-based agricultural greenhouse planting system as claimed in claim 2, wherein the infrared sensor (41) and the field monitor (42) record people and animals moving around the greenhouse, the people and animals are recorded in the recording unit (6), the weather early warning device (43) warns operators in advance of the coming of typhoon and earthquake conditions to reinforce the greenhouse, the film damage alarm (44) warns the operators when detecting the damage of the greenhouse film, so that the operators can maintain the greenhouse in time, and the recording unit (6) records the operation records of the field operation system (11) and the remote control unit (3) at the same time.

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