CN109087212A - Agricultural production greenhouse regulation device based on big data platform - Google Patents

Abstract

The present invention relates to a kind of agricultural production greenhouse regulation device based on big data platform, greenhouse is both its effective object and the data sample of its big data platform, since the growing environment in each greenhouse is constantly present some differences, and it is also only fluctuated in a certain range along target component under regulation, and these differences cause the growing way of crop different, with being continuously increased for data sample, the parameter source of crop relative advantage growth can be continuously updated, and constantly close to most ideal parameters, after the accumulation of certain time, crop species in the big data platform are perfected, environmental parameter in growth cycle obtains one group of ideal value, the micro controller is according to the ideal parameters of crop, in conjunction with current environment parameter, pass through the movement of the execution module, suitable environment needed for greenhouse-environment is adjusted to Different Crop.The present invention solves the problems, such as that existing cured automation implantation methods are not able to satisfy the variation of Different climate and different types of plant growth needs.

Description

Agricultural production greenhouse regulation device based on big data platform

Technical field

The present invention relates to agricultural planting techniques, particularly relate to a kind of agricultural production greenhouse regulation dress based on big data platform It sets.

Background technique

Currently, with the development of Chinese agriculture, greenhouse gardening technology, which gradually manifests him and has, can control temperature, anti- Rain is easily-controllable, conducive to the high feature of high yield, profit.And conventional greenhouse is generally by manually carrying out temperature and light in control greenhouse It is operated according to intensity etc., inevitably has low Measure Precision, large labor intensity in this way and since observing and controlling causes crops not in time The problems such as undergrowth.With the increase of human cost, a kind of automatic management is designed to reduce the greenhouse of peasant household's labor intensity Technology is development trend.

A kind of intelligent agricultural greenhouse and greenhouse gardening method as disclosed in patent document CN107750708A, the intelligence agriculture Sparetime university's canopy includes the greenhouse built on the ground, and electrical ventilator is provided on the greenhouse, and the intelligent agricultural greenhouse is also wrapped Include electric sunshading curtain, automatic water supply system, temperature sensor, soil humidity sensor, optical sensor, wireless communication module and The outside of the greenhouse is arranged in controller, the sunshade, and the automatic water supply system, temperature sensor, soil moisture pass Sensor and optical sensor are arranged inside the greenhouse, the controller respectively with the electrical ventilator, electric sunshading curtain, Automatic water supply system, temperature sensor, soil humidity sensor, optical sensor are connected with wireless communication module.Using above-mentioned The greenhouse gardening method of intelligent agricultural greenhouse: greenhouse is built, and coaming is arranged on the ground and around greenhouse, inside greenhouse Digging groove buries water supplying pipe and plants crops, also, the Root Distribution of crops is around water supplying pipe, wherein in water blocking The upper soil layer for making the soil in greenhouse be located at earth's surface under the action of enclosure wall is in dry exsiccosis；In water supply process, such as The humidity value that humidity sensor detects under fruit is lower than setting value, then controls water pump and the water in water tank is input in water supplying pipe, and When the humidity value of upper humidity sensor is higher than setting value, then need to stop water pump water supply.

The intelligent agricultural greenhouse and greenhouse gardening method that the document provides, by configuring related sensor in greenhouse, benefit The relevant parameter in greenhouse is detected with sensor, and user terminal, user terminal are sent to via wireless communication module by controller Corresponding instruction can be sent, electrical ventilator, electric sunshading curtain and automatic water supply system are controlled by controller and run, thus Without artificial in-site measurement, the control management of greenhouse wireless automatic is realized, and reduce the labor intensity of peasant household.

However planting environment be it is complicated and changeable, be not only able to satisfy difference still by the automation implantation methods of unalterable rules The variation of weather and the growth of different types of kind of plant need, and the utilization with big data technology in each field, we are expected to Reach the optimal growth target of crop in agricultural greenhouse by big data platform.

Summary of the invention

The present invention proposes a kind of agricultural production greenhouse regulation device based on big data platform, solve it is existing it is cured from Dynamicization implantation methods are not able to satisfy the variation of Different climate and the problem of different types of plant growth need.

The technical scheme of the present invention is realized as follows:

A kind of agricultural production greenhouse regulation device based on big data platform comprising several in setting regions Greenhouse, each greenhouse are correspondingly arranged on the environment information acquisition module for detecting the greenhouse internal and external environment parameter, with And dare to adjusting the execution module of environmental parameter in the greenhouse, each greenhouse is additionally provided with a micro controller, described micro- Greenhouse auto-control general program, the signal input part of the environment information acquisition module and the micro controller are provided in control device Connection is with to micro controller transmission environment parameter, the execution module is connect with the signal output end of the micro controller by micro controller Output order realize adjusting to environmental parameter in greenhouse, the communication interface of the micro controller passes through a communication module and big number According to Platform communication interaction.

The micro controller, which is provided with, is manually entered panel, when in crop-planting to greenhouse, artificial selection Crop Group；Institute It states micro controller and the big data platform is accessed to obtain the classification of planted crop and its corresponding greenhouse by communication module Regulatory process；After the classification and its corresponding greenhouse regulatory process for getting the crop, the micro controller calls the acquisition Greenhouse regulatory process and by the acquisition greenhouse regulatory process regulation greenhouse in environmental parameter；When the classification for obtaining the crop After failure, the micro controller calls the greenhouse auto-control general program of itself to regulate and control environmental parameter in greenhouse.

In the greenhouse in the entire growth cycle of crop, the micro controller is saved by setpoint frequency and comes from the environment The environmental information of information acquisition module and the information of crop growth conditions, and saved by time shaft of growth cycle, institute The information for stating crop growth conditions is obtained by image acquisition device.

After crop terminates growth cycle in the greenhouse, the micro controller will be corresponded in growth cycle by communication module The environmental information of crop and the information of crop growth conditions are uploaded to big data platform, and the big data platform is raw by the crop Long situation retains in the corresponding growth cycle of this kind of crop relative advantage upgrowth situation compared with the historical data in database pair The environmental information of crop and temporarily as parameter source；If the big data platform does not have the historical data of the crop, should The environmental information that crop uploads is temporarily as parameter source.

Preferably, the invention also includes the mobile terminals with the big data platform and the communication module information exchange； The mobile terminal can be to the big data platform, micro controller access and upload plant growth data.

Preferably, the environment information acquisition module includes humidity sensor, temperature sensor, illuminance sensor, two Carbonoxide concentration sensor, oxygen concentration sensor, soil salinity sensor, the soil salinity sensor are arranged in greenhouse Interior, the humidity sensor, temperature sensor, illuminance sensor, gas concentration lwevel sensor, oxygen concentration sensor exist There is setting inside and outside the greenhouse；The execution module include air humidifier, carbon dioxide adder, warmer, rebreather, Irrigator and light compensating lamp；Described image collector be distributed in crop belts horizontal, vertical near border and and crop belts just on Side passes through growing height, stretching, extension radius and the crop that crop in two groups of data of comparison is last when judging crop growth conditions Between density determine one group of data of growth vigor.

All greenhouses in setting regions are both effective object of the invention and big data platform of the present invention Data sample, since the growing environment in each greenhouse is constantly present some differences, and also only along target component under regulation It fluctuates in a certain range, and these differences cause the growing way of crop different, with being continuously increased for data sample, crop is opposite The parameter source of dominant growth can be continuously updated, and constantly close to most ideal parameters, finally be fluctuated around most ideal parameters, After the accumulation of certain time, the crop species in the big data platform are perfected, and the environmental parameter in growth cycle obtains One group of ideal value, the micro controller pass through the dynamic of the execution module in conjunction with current environment parameter according to the ideal parameters of crop Make, suitable environment needed for greenhouse-environment is adjusted to Different Crop.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention without any creative labor, may be used also for those of ordinary skill in the art To obtain other drawings based on these drawings.

Fig. 1 is a kind of schematic diagram of agricultural production greenhouse regulation device based on big data platform of the invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

A kind of agricultural production greenhouse regulation device based on big data platform, as shown in Figure 1 comprising be located at setting regions Several interior greenhouses, the environmental information that each greenhouse is correspondingly arranged on for detecting the greenhouse internal and external environment parameter are adopted Collect module 1, and dare to adjusting the execution module 3 of environmental parameter in the greenhouse, each greenhouse be additionally provided with one it is micro- Device 2 is controlled, greenhouse auto-control general program, the environment information acquisition module 1 and the micro-control are provided in the micro controller 2 The signal input part of device 2 is connected so as to 2 transmission environment parameter of micro controller, the signal of the execution module 3 and the micro controller 2 is defeated Outlet connection is to be realized the adjusting to environmental parameter in greenhouse, the communication interface of the micro controller 2 by the output order of micro controller 2 Pass through a communication module 4 and 5 communication interaction of big data platform.

The micro controller 2, which is provided with, is manually entered panel, when in crop-planting to greenhouse, artificial selection Crop Group； The micro controller 2 accesses the big data platform 5 by communication module 4 to obtain the classification of planted crop and its corresponding Greenhouse regulatory process；After the classification and its corresponding greenhouse regulatory process for getting the crop, the micro controller 2 is called should The greenhouse regulatory process of acquisition simultaneously regulates and controls environmental parameter in greenhouse by the greenhouse regulatory process of the acquisition；When the acquisition crop After classification failure, the micro controller 2 calls the greenhouse auto-control general program of itself to regulate and control environmental parameter in greenhouse.

In the greenhouse in the entire growth cycle of crop, the micro controller 2 is saved by setpoint frequency and comes from the ring The environmental information of border information acquisition module 1 and the information of crop growth conditions, and saved by time shaft of growth cycle, The information of the crop growth conditions is obtained by image acquisition device.

After crop terminates growth cycle in the greenhouse, the micro controller 2 will corresponding growth cycle by communication module 4 The environmental information of interior crop and the information of crop growth conditions are uploaded to big data platform 5, and the big data platform 5 is by the work Object upgrowth situation retains this kind of crop relative advantage upgrowth situation corresponding growth week compared with the historical data in database pair The environmental information of crop and temporarily as parameter source in phase；If the big data platform 5 does not have the historical data of the crop, The environmental information that the crop is uploaded is temporarily as parameter source.

All greenhouses in setting regions are both effective object and big data platform of the present invention 5 of the invention Data sample, since the growing environment in each greenhouse is constantly present some differences, and also only along target component under regulation It fluctuates in a certain range, and these differences cause the growing way of crop different, with being continuously increased for data sample, crop is opposite The parameter source of dominant growth can be continuously updated, and constantly close to most ideal parameters, finally be fluctuated around most ideal parameters, After the accumulation of certain time, the crop species in the big data platform 5 are perfected, and the environmental parameter in growth cycle obtains One group of ideal value, the micro controller 2 pass through the execution module 3 in conjunction with current environment parameter according to the ideal parameters of crop Movement, suitable environment needed for greenhouse-environment is adjusted to Different Crop.

Further, the invention also includes the mobile ends with 4 information exchange of the big data platform 5 and the communication module End 6；The mobile terminal 6 can be to the big data platform 5, the access of the micro controller 2 and upload plant growth data.Guard The staff of greenhouse can voluntarily intervene the growing environment of crop by mobile terminal 6.

Further, the environment information acquisition module 1 include humidity sensor, temperature sensor, illuminance sensor, Gas concentration lwevel sensor, oxygen concentration sensor, soil salinity sensor, the soil salinity sensor are arranged in greenhouse Interior, the humidity sensor, temperature sensor, illuminance sensor, gas concentration lwevel sensor, oxygen concentration sensor exist There is setting inside and outside the greenhouse；The execution module 3 includes air humidifier, carbon dioxide adder, warmer, ventilation Device, irrigator and light compensating lamp；Described image collector be distributed in crop belts horizontal, vertical near border and and crop belts just Top passes through growing height, stretching, extension radius and the work that crop in two groups of data of comparison is last when judging crop growth conditions Density between object determines one group of data of growth vigor.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (3)

1. a kind of agricultural production greenhouse regulation device based on big data platform, including be located in setting regions several are big Canopy, each greenhouse are correspondingly arranged on the environment information acquisition module (1) for detecting the greenhouse internal and external environment parameter, with And dare to adjusting the execution module (3) of environmental parameter in the greenhouse, each greenhouse is additionally provided with a micro controller (2), Greenhouse auto-control general program, the environment information acquisition module (1) and the micro controller are provided in the micro controller (2) (2) signal input part connection with to micro controller (2) transmission environment parameter, the execution module (3) and the micro controller (2) Signal output end connection is to be realized the adjusting to environmental parameter in greenhouse, the micro controller (2) by the output order of micro controller (2) Communication interface pass through a communication module (4) and big data platform (5) communication interaction, it is characterised in that:

The micro controller (2), which is provided with, is manually entered panel, when in crop-planting to greenhouse, artificial selection Crop Group；Institute It states micro controller (2) and by communication module (4) accesses the big data platform (5) to obtain the classification of planted crop and its right The greenhouse regulatory process answered；After the classification and its corresponding greenhouse regulatory process for getting the crop, the micro controller (2) Call the greenhouse regulatory process of the acquisition and by environmental parameter in the greenhouse regulatory process of acquisition regulation greenhouse；Described in acquisition After the classification failure of crop, the micro controller (2) calls the greenhouse auto-control general program of itself to regulate and control environment in greenhouse Parameter；

In the greenhouse in the entire growth cycle of crop, the micro controller (2) is saved by setpoint frequency and comes from the environment The environmental information of information acquisition module (1) and the information of crop growth conditions, and saved by time shaft of growth cycle, The information of the crop growth conditions is obtained by image acquisition device；

After crop terminates growth cycle in the greenhouse, the micro controller (2) will corresponding growth cycle by communication module (4) The environmental information of interior crop and the information of crop growth conditions are uploaded to big data platform (5), and the big data platform (5) will The crop growth conditions retain the corresponding life of this kind of crop relative advantage upgrowth situation compared with the historical data in database pair The environmental information of crop and temporarily as parameter source in long period；If the big data platform (5) does not have the history of the crop Data, then the environmental information uploaded the crop is temporarily as parameter source.

2. the agricultural production greenhouse regulation device according to claim 1 based on big data platform, it is characterised in that: also wrap Include the mobile terminal (6) with the big data platform (5) and the communication module (4) information exchange；Mobile terminal (6) energy It is enough to access and upload plant growth data to the big data platform (5), the micro controller (2).

3. the agricultural production greenhouse regulation device according to claim 1 or 2 based on big data platform, it is characterised in that:

The environment information acquisition module (1) includes that humidity sensor, temperature sensor, illuminance sensor, carbon dioxide are dense Sensor, oxygen concentration sensor, soil salinity sensor are spent, the soil salinity sensor is arranged in greenhouse, described wet Sensor, temperature sensor, illuminance sensor, gas concentration lwevel sensor, oxygen concentration sensor are spent in the greenhouse It is inside and outside to have setting；

The execution module (3) includes air humidifier, carbon dioxide adder, warmer, rebreather, irrigator and light filling Lamp；Described image collector be distributed in crop belts horizontal, vertical near border and and crop belts surface, judging crop When upgrowth situation, pass through the density between the last growing height of crop in two groups of data of comparison, stretching, extension radius and crop To determine one group of data of growth vigor.