CN108519761A - A kind of management system of heliogreenhouse group in Agricultural Park - Google Patents

Abstract

The present invention provides the management system of the heliogreenhouse group in Agricultural Park a kind of.System includes：Multiple slave computer modules, LoRa transparent transmissions communication module and upper computer module；Wherein, multiple slave computer moulds each slave computer module in the block is sent to LoRa transparent transmission communication modules for obtaining the parameter information in corresponding heliogreenhouse, and by parameter information；LoRa transparent transmission communication modules, the parameter information for receiving the transmission of each slave computer module, and parameter information is sent to upper computer module；Upper computer module, the parameter information for receiving the transmission of LoRa transparent transmission communication modules, and according to parameter information, multiple heliogreenhouses are managed；Wherein, parameter information includes environmental parameter and fertigation machine state parameter.Management system provided by the invention, frequency technology is wirelessly opened up by using LoRa, and the parameter information got from multiple heliogreenhouses is sent to upper computer module, is solved cable frame and is set as excessively high, a time-consuming problem.

Description

Management system of sunlight greenhouse group in agricultural park

Technical Field

The invention relates to the technical field of agricultural control, in particular to a management system of a sunlight greenhouse group in an agricultural park.

Background

The production park of the sunlight greenhouse group has the characteristics of large quantity of greenhouses, various types of cultivated vegetables, various arrangement of crops for rotation and the like, and has the following problems in centralized management at present: production management is complex, water and fertilizer management is labor-consuming and time-consuming, fine and standardized management is difficult to realize, and labor efficiency and economic benefit are seriously affected; secondly, the annual production data and irrigation data of the greenhouse group are huge, a data storage set of a system is not formed, and later-stage data classification statistics and mining are not facilitated, so that follow-up production is guided, and the production efficiency is improved year by year; and thirdly, centralized management and control of the sunlight greenhouse often relate to cooperative communication among a plurality of fertilizer preparation stations, fertilizer storage stations and irrigation stations, and the traditional method of communication between a cable mode and an upper central control upper computer is too high in erection cost and labor and time consuming. In general, although the central control room in the garden is connected with the network, the central control WIFI cannot be shared by all the greenhouses, so that the network needs to be expanded again when the comprehensive monitoring is performed in a network communication mode, and the convenience is not high enough.

Disclosure of Invention

The invention provides a management system of a sunlight greenhouse group in an agricultural park, which solves the problems that the efficiency of a one-to-many management mode is low, the data collection systematicness of the park is poor, the cable erection cost is too high, and time and labor are wasted when the conventional sunlight greenhouse group is managed and controlled in a centralized mode.

According to one aspect of the present invention, there is provided a system for managing a solar greenhouse group in an agricultural park, comprising:

the system comprises a plurality of lower computer modules, a LoRa transparent transmission communication module and an upper computer module; wherein,

each lower computer module in the plurality of lower computer modules is used for acquiring parameter information in a corresponding sunlight greenhouse and sending the parameter information to the LoRa transparent transmission communication module;

the LoRa transparent transmission communication module is used for receiving the parameter information sent by each lower computer module and sending the parameter information to the upper computer module;

the upper computer module is used for receiving the parameter information sent by the LoRa transparent transmission communication module and managing the plurality of sunlight greenhouses according to the parameter information;

wherein the parameter information comprises an environmental parameter and a fertigation machine state parameter.

According to the management system of the sunlight greenhouse group in the agricultural park, parameter information acquired from a plurality of sunlight greenhouses is transmitted to the upper computer module by adopting the LoRa wireless frequency extension technology, so that the problems of high cable erection cost, time and labor waste are solved; meanwhile, a modular design concept is adopted, water and fertilizer, production, maintenance and production assistance of the greenhouse are managed in a centralized manner, the management efficiency is improved, and an analysis basis can be provided for future production.

Drawings

FIG. 1 is a schematic structural diagram of a solar greenhouse group management system in an agricultural park according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a solar greenhouse community management system in an agricultural park according to another embodiment of the present invention;

fig. 3 is a functional structure diagram of a sunlight greenhouse cluster management system software in a modular agricultural park according to an embodiment of the invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Fig. 1 is a schematic structural diagram of a management system for a solar greenhouse group in an agricultural park according to an embodiment of the present invention, as shown in fig. 1, the system includes:

the system comprises a plurality of lower computer modules, a LoRa transparent transmission communication module and an upper computer module; wherein,

each lower computer module in the plurality of lower computer modules is used for acquiring parameter information in a corresponding sunlight greenhouse and sending the parameter information to the LoRa transparent transmission communication module;

the LoRa transparent transmission communication module is used for receiving the parameter information sent by each lower computer module and sending the parameter information to the upper computer module;

the upper computer module is used for receiving the parameter information sent by the LoRa transparent transmission communication module and managing the plurality of sunlight greenhouses according to the parameter information;

wherein the parameter information comprises an environmental parameter and a fertigation machine state parameter.

Specifically, to the network communication problem among the prior art, considering that the LoRa wireless frequency extension technology is low in cost and stable in control, the system is suitable for broadcasting communication from the host station to other stations, and multithread communication from other stations to the host station easily meets the real-time monitoring requirement of the central control upper computer on a plurality of liquid manure integrated stations.

In this embodiment, the solar greenhouse group includes a plurality of solar greenhouses, each of which is cultivated with a crop. The management of a solar greenhouse group is essentially the management of a plurality of solar greenhouses, namely the management of the environment and the status of the fertigation machine in each solar greenhouse for better growth of crops in the solar greenhouse.

In order to manage the environment and fertigation machine state in each solar greenhouse, it is first necessary to acquire the environmental parameters and fertigation machine state parameters in each solar greenhouse. Wherein the environmental parameters comprise temperature, humidity, illumination intensity and the like; the state parameters of the fertigation machine comprise the vibration intensity of the fertigation machine, the residual quantity of the irrigation liquid in the fertigation machine, the concentration of the irrigation liquid in the fertigation machine, the flow rate of the irrigation liquid sprayed by the fertigation machine and the like. And then adjusting the environment and the state of the irrigation and fertilization machine in the sunlight greenhouse according to the parameter information. The adjustment mode can be as follows: a manager manually regulates and controls the corresponding sunlight greenhouse by checking the parameter information; or the upper computer directly carries out automatic regulation and control on the corresponding sunlight greenhouse according to the parameter information.

According to the embodiment, the parameter information acquired from the plurality of sunlight greenhouses is transmitted to the upper computer module by adopting the LoRa wireless frequency extension technology, so that the upper computer module manages the plurality of sunlight greenhouses according to the parameter information, and the problems that the cable erection cost is too high, and time and labor are wasted are solved.

Based on the above embodiment, the system further includes:

the parameter information collector and the fertigation machine are arranged in each sunlight greenhouse; the parameter information collector is used for collecting corresponding environmental parameters and irrigation fertilizer applicator state parameters in the sunlight greenhouse; wherein,

the parameter information collector comprises one or more of a temperature sensor, a humidity sensor, an illumination intensity sensor, a vibration sensor, a pressure sensor, a concentration sensor and a flow sensor; accordingly, the number of the first and second electrodes,

the lower computer module is used for acquiring one or more corresponding temperature parameters, humidity parameters, illumination intensity parameters, vibration intensity parameters of the fertigation machine, residual parameters of irrigation liquid in the fertigation machine, concentration parameters of the irrigation liquid in the fertigation machine and flow rate parameters of the irrigation liquid sprayed by the fertigation machine in the sunlight greenhouse.

Specifically, each sunlight greenhouse is provided with a parameter information collector and a fertigation machine, wherein the parameter information collector is a plurality of sensors, such as: temperature sensor, humidity sensor, illumination intensity sensor, vibration sensor, pressure sensor, concentration sensor, flow sensor, and the like. The temperature sensor, the humidity sensor and the illumination intensity sensor are respectively used for collecting the temperature, the humidity and the illumination intensity of the environment. Vibration sensor sets up in fertigation machine casing or bearing etc. can reflect fertigation machine vibration intensity's place for acquire fertigation machine's vibration intensity, flow sensor sets up in fertigation machine spray bar department of spraying fertilizer, is used for acquireing the flow rate that fertigation machine sprayed irrigation liquid. The arrangement of other sensors is not particularly limited in this embodiment, and should be determined according to a specific scenario.

Based on the above embodiment, the upper computer module is further configured to generate control information for controlling the corresponding sunlight greenhouse according to the parameter information, and send the control information to the corresponding lower computer module through the corresponding LoRa transparent transmission communication module; accordingly, the number of the first and second electrodes,

and the lower computer module is also used for adjusting the parameter information in the corresponding sunlight greenhouse according to the control information.

It should be noted that the communication between the lower computer module and the LoRa transparent transmission communication module is bidirectional, and the communication between the LoRa transparent transmission communication module and the upper computer module is also bidirectional.

Based on the above embodiment, this embodiment further describes an LoRa transparent communication module, where the LoRa transparent communication module includes:

the broadcasting station submodule and the LoRa passthrough broadcasting station submodules; wherein,

each LoRa passthrough radio submodule in the LoRa passthrough radio submodules is electrically connected with different lower computer modules respectively; each LoRa transparent transmission radio station submodule is used for receiving parameter information sent by a corresponding lower computer module and sending the parameter information to the broadcast radio station submodule;

the broadcasting station submodule is electrically connected with the LoRa passthrough radio submodules and used for receiving the parameter information sent by each LoRa passthrough radio submodule and sending the parameter information to the upper computer module.

Based on the above embodiment, further include:

a GPRS terminal module and a server module; wherein,

the GPRS terminal module is used for receiving parameter information sent by the broadcasting station submodule and sending the parameter information to the server module;

and the server module is used for receiving the parameter information sent by the GPRS terminal and sending the parameter information to the upper computer module.

Based on the above embodiments, this embodiment is taken as a preferred embodiment to further explain a management system of a solar greenhouse group in an agricultural park:

fig. 2 is a schematic structural diagram of a management system of a sunlight greenhouse group in an agricultural park according to another embodiment of the present invention, and as shown in fig. 2, the system includes a controlled module, a lower computer module, a LoRa transparent transmission communication module, a server module, and an upper computer module. Wherein, the lower computer module receives the parameter information of the controlled modules such as the environment controller, the information collector and the fertigation machine, transmits the information to the GPRS terminal module through the LoRa transmission technology and the LoRa transmission communication module, and transmits the parameter information to the server module through the 4G/Wifi network. The server module sends the received parameter information to the upper computer module, and the upper computer module displays the parameter information on monitoring terminals such as Android or Web.

Based on the above embodiment, the upper computer module further includes:

and the environment control unit is used for displaying the environment parameters, alarming when the environment parameters exceed a preset environment parameter threshold value, and sending a first instruction to the corresponding lower computer module so that the lower computer module receives the first instruction sent by the upper computer module and adjusts the environment in the corresponding sunlight greenhouse according to the first instruction.

And the fertigation machine control unit is used for displaying the fertigation machine state parameters, alarming when the fertigation machine state parameters exceed preset fertigation machine state parameter threshold values, and sending a second instruction to the corresponding lower computer module so that the lower computer module receives the second instruction sent by the upper computer module and adjusts the state of the fertigation machine in the corresponding sunlight greenhouse according to the second instruction.

Specifically, the environmental parameters include temperature, humidity, illumination intensity and the like, and the environmental parameters can reflect real-time meteorological parameters, current opening and closing states of a wet curtain fan, a cotton quilt covering state and the like in the corresponding sunlight greenhouse. And if the environmental parameters are effective, the fertigation machine control unit displays the environmental parameters, compares the environmental parameters with a preset environmental parameter threshold value, gives an alarm when the environmental parameters exceed the preset environmental parameter threshold value, and adjusts the corresponding environmental parameters in the sunlight greenhouse.

When the environmental parameters are invalid, the environment control unit can automatically adjust the environment corresponding to the sunlight greenhouse according to the real-time weather forecast, and an optimal growing environment is created for crops.

The state parameters of the fertigation machine comprise one or more of vibration intensity parameters of the fertigation machine, residual parameters of irrigation liquid in the fertigation machine, concentration parameters of the irrigation liquid in the fertigation machine and flow rate parameters of the irrigation liquid sprayed by the fertigation machine.

Fertigation machine control unit accessible sets up the fertigation machine state information of gathering such as vibration sensor on fertigation machine, pressure sensor, concentration sensor and flow sensor, judges fertigation machine's running state, can report to the police including the unusual running condition such as lack mother liquor, park water cut off, the uncontrolled condition of irrigation liquid concentration with fertigation machine production, reaches under the condition of unmanned supervision, and the administrator can in time discover the problem, avoids the crop growth situation consequently to receive the influence.

Based on the above embodiment, the upper computer module further includes:

and the production file management unit is used for recording the agricultural projects and the workload participated by the workers in the agricultural park.

Specifically, the administrator can intensively add farm work operations of land preparation, base fertilizer application, field planting, pruning and forking, spraying flowers, pesticide spraying, leaf beating, seedling falling, fruit picking, seedling pulling and the like, which are participated by park workers, and the yield of fruit picking crops in each time; farming operations and crop yields can also be added remotely by the participants themselves at the fertigation end. In addition, the system can automatically add irrigation and fertilization actions according to the action condition of the field valve of the irrigation and fertilization machine.

Based on the above embodiment, the upper computer module further includes:

and the counting and downloading unit is used for generating a related data report and visual graphic content according to the parameter information and providing an interface for downloading the data report and the visual graphic content.

Specifically, the statistics and downloading unit can extract relevant information in the database, generate a production file report, generate a seasonal irrigation quantity report by statistics, generate a yield report by statistics and analyze the collection and payment items by statistics, so that a manager can clearly know the water and fertilizer consumption condition of the park and the production efficiency of workers.

Based on the above embodiment, the upper computer module further includes:

and the maintenance management unit is used for storing, uploading and downloading the operation rules of the agricultural park, the circuit schematic diagrams of all the equipment in the agricultural park and the pipeline design diagrams of all the pipelines in the agricultural park.

Specifically, the maintenance management unit includes operation procedure establishing/downloading, circuit schematic diagram uploading/downloading and pipeline design diagram uploading/downloading functions. The operation rules, the circuit schematic diagram and the pipeline design diagram are provided by a third party installing the intelligent equipment, when the equipment breaks down, engineers in the park can remove the fault according to the drawing, the problem is solved, the time for transmitting the fault to the third party and reaching the third party is saved, and the maintenance cost collected by the third party is saved.

Based on the above embodiment, the upper computer module further includes:

and the remote expert assistance unit is used for realizing the network big data diagnosis function and the expert remote diagnosis function.

Specifically, a manager can input crop varieties, planting time, cultivation modes and the like, submit the crop varieties, the planting time, the cultivation modes and the like to a webpage, and provide a water and fertilizer supply strategy for high-yield cultivation after the crop varieties, the planting time, the cultivation modes and the like are checked by a cooperative agricultural academy; the administrator can shoot and upload the pest and disease information of crops, and after the network diagnosis function is selected, the system can automatically search pests with high similarity with pictures and provide links for accessing related websites; after the expert diagnosis function is selected, the cooperative agricultural academy receives the picture of the plant diseases and insect pests and gives professional guidance.

It should be noted that if the central control room touch integrated machine is used as an upper computer, the RS485 interface is directly connected to the LoRa broadcasting station, and the LoRa transparent broadcasting station which is transparent to each sunlight greenhouse receives and transmits signals, so as to control the sunlight greenhouse fertigation machine. And the touch screen of the central control room touch all-in-one machine is provided with central control software for the solar greenhouse cluster, the environment, water and fertilizer, production, maintenance and the like of each greenhouse in the park are comprehensively managed, and an uploading interface and a downloading interface are provided.

If any PC machine capable of being networked is used as an upper computer, the LaRa broadcasting station is connected with the GPRS terminal, and data are uploaded to the server in a 4G or wired or Wifi mode. A sunlight greenhouse cluster centralized control software of a B/S frame is installed on the upper computer, the environment, water and fertilizer, production, maintenance and the like of each greenhouse in the park are comprehensively managed, and an uploading and downloading interface and a remote expert assistance unit are provided.

If the sunlight greenhouse cluster centralized control software of the C/S framework is installed at the mobile phone end, the environment, water and fertilizer, production, maintenance and the like of each greenhouse in the park are comprehensively managed, and an uploading and downloading interface and a remote expert assistance unit are provided.

As a preferred embodiment, fig. 3 is a functional structure diagram of a sunlight greenhouse cluster management system software in a modular agricultural park according to an embodiment of the present invention. As shown in fig. 3, the software includes a plurality of functional units, such as an environment control unit, a water and fertilizer integrated management unit, a production file management unit, a statistics and download unit, a maintenance management unit, and a remote expert assistance unit. The specific functions of the environment control unit in the above embodiments are described in the context of the environment control unit. The specific functions of the water and fertilizer integrated management unit, that is, the irrigation and fertilizer application control unit in the above embodiment, are described in the above description of the functions of the irrigation and fertilizer application control unit. The functions of the production file management unit, the statistics and downloading unit, the maintenance management unit and the remote expert assistance unit are respectively explained in the above embodiments, and are not further described herein.

In summary, the embodiment of the invention provides a management system for a sunlight greenhouse group in an agricultural park, which solves the problems of high cable erection cost, time and labor waste. The system comprises a plurality of functional units such as cultivation production, irrigation fertilization, maintenance downloading and remote assistance, a ground tree form management system can be established to integrally monitor all aspects of the medium-small park in a centralized mode, visual management is achieved, management efficiency is greatly improved, and labor input cost of managers is saved. And an uploading and downloading interface is provided, so that a manager can print the generated statistical report conveniently for filing processing. Integrates the assistance function of remote experts and provides technical support for high-yield cultivation and timely control of plant diseases and insect pests.

Finally, the embodiments of the present invention are merely preferred embodiments, and are not intended to limit the scope of the present invention. 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. A system for managing a solar greenhouse group in an agricultural park, comprising:

the system comprises a plurality of lower computer modules, a LoRa transparent transmission communication module and an upper computer module; wherein,

each lower computer module in the plurality of lower computer modules is used for acquiring parameter information in a corresponding sunlight greenhouse and sending the parameter information to the LoRa transparent transmission communication module;

the LoRa transparent transmission communication module is used for receiving the parameter information sent by each lower computer module and sending the parameter information to the upper computer module;

the upper computer module is used for receiving the parameter information sent by the LoRa transparent transmission communication module and managing the plurality of sunlight greenhouses according to the parameter information;

wherein the parameter information comprises an environmental parameter and a fertigation machine state parameter.

2. The system of claim 1, further comprising:

the parameter information collector and the fertigation machine are arranged in each sunlight greenhouse; the parameter information collector is used for collecting corresponding environmental parameters and irrigation fertilizer applicator state parameters in the sunlight greenhouse; wherein,

the parameter information collector comprises one or more of a temperature sensor, a humidity sensor, an illumination intensity sensor, a vibration sensor, a pressure sensor, a concentration sensor and a flow sensor; accordingly, the number of the first and second electrodes,

the lower computer module is used for acquiring one or more corresponding temperature parameters, humidity parameters, illumination intensity parameters, vibration intensity parameters of the fertigation machine, residual parameters of irrigation liquid in the fertigation machine, concentration parameters of the irrigation liquid in the fertigation machine and flow rate parameters of the irrigation liquid sprayed by the fertigation machine in the sunlight greenhouse.

3. The system of claim 2, wherein the upper computer module is further configured to generate control information for controlling the corresponding sunlight greenhouse according to the parameter information, and send the control information to the corresponding lower computer module through the corresponding LoRa transparent transmission communication module; accordingly, the number of the first and second electrodes,

and the lower computer module is also used for adjusting the parameter information in the corresponding sunlight greenhouse according to the control information.

4. The system of claim 1, wherein the LoRa pass-through communication module further comprises:

the broadcasting station submodule and the LoRa passthrough broadcasting station submodules; wherein,

each LoRa passthrough radio submodule in the LoRa passthrough radio submodules is electrically connected with different lower computer modules respectively; each LoRa transparent transmission radio station submodule is used for receiving parameter information sent by a corresponding lower computer module and sending the parameter information to the broadcast radio station submodule;

the broadcasting station submodule is electrically connected with the LoRa passthrough radio submodules and used for receiving the parameter information sent by each LoRa passthrough radio submodule and sending the parameter information to the upper computer module.

5. The system of claim 4, further comprising:

a GPRS terminal module and a server module; wherein,

the GPRS terminal module is used for receiving parameter information sent by the broadcasting station submodule and sending the parameter information to the server module;

and the server module is used for receiving the parameter information sent by the GPRS terminal and sending the parameter information to the upper computer module.

6. The system of claim 3, wherein the upper computer module further comprises:

the environment control unit is used for displaying the environment parameters, alarming when the environment parameters exceed a preset environment parameter threshold value, and sending a first instruction to the corresponding lower computer module so that the lower computer module receives the first instruction sent by the upper computer module and adjusts the environment in the corresponding sunlight greenhouse according to the first instruction;

and the fertigation machine control unit is used for displaying the fertigation machine state parameters, alarming when the fertigation machine state parameters exceed preset fertigation machine state parameter threshold values, and sending a second instruction to the corresponding lower computer module so that the lower computer module receives the second instruction sent by the upper computer module and adjusts the state of the fertigation machine in the corresponding sunlight greenhouse according to the second instruction.

7. The system of claim 1, wherein the upper computer module further comprises:

and the production file management unit is used for recording the agricultural projects and the workload participated by the workers in the agricultural park.

8. The system of claim 1, wherein the upper computer module further comprises:

and the counting and downloading unit is used for generating a related data report and visual graphic content according to the parameter information and providing an interface for downloading the data report and the visual graphic content.

9. The system of claim 1, wherein the upper computer module further comprises:

and the maintenance management unit is used for storing, uploading and downloading the operation rules of the agricultural park, the circuit schematic diagrams of all the equipment in the agricultural park and the pipeline design diagrams of all the pipelines in the agricultural park.

10. The system of claim 1, wherein the upper computer module further comprises:

and the remote expert assistance unit is used for realizing the network big data diagnosis function and the expert remote diagnosis function.