CN108901758A - A kind of irrigation server, terminal, system and method - Google Patents

Abstract

The present invention provides a kind of irrigation server, terminal, system and method, the present invention, according to the ambient parameters of plant, judges whether environmental parameter reaches preset value by irrigation server；If, control instruction is then sent to irrigation terminal, irrigate the present invention according to the real-time surrounding physical environment of plant to plant by irrigation terminal, judge whether plant needs to irrigate, the supply of moisture is accurately carried out to plant, the waste of water resource is reduced, working efficiency is improved, reduces the labor intensity of user.

Description

A kind of irrigation server, terminal, system and method

Technical field

The present invention relates to controls, field of information system, and in particular to a kind of irrigation server, terminal, system and method.

Background technique

Intelligent irrigation system, the system including distribution and based on cloud computing of water conservancy industry application at present are all various spies A whole set of equipment of head and control unit is made.This equally faces production line problems faced the 1960s, owns Probe acquisition and control program be it is cured, replacement, adjustment or it is newly-increased will all face it is incompatible, need to update firmware or Thoroughly many problems such as replacement whole system.

Summary of the invention

In view of the above technical problems, the present invention provides a kind of irrigation server, terminal, system and method.

The technical solution that the present invention solves above-mentioned technical problem is as follows：A kind of irrigation server comprising：

First receiving module carries out in fact surrounding's physical environment of plant for receiving the terminal for irrigating the plant When the obtained environmental parameter of measurement；

Processing module, for the first preset value inside the processing module to be compared with the environmental parameter, and Judge whether the environmental parameter reaches the first preset value；If so, generating the first control instruction；

First sending module, the first control instruction for generating the processing module, which is sent to, is used to irrigate the plant The terminal of object.

For achieving the above object, the present invention also provides a kind of irrigation terminals comprising：

First obtains module, carries out the environmental parameter that real-time measurement obtains for obtaining surrounding's physical environment to plant；

First sending module obtains the environmental parameter that module obtains for sending described first to irrigation server； So that the irrigation server is according to the environmental parameter, judge whether the environmental parameter reaches the first preset value；If so, Generate the first control instruction；

First receiving module, for receiving first control instruction for irrigating server feedback；

Execution module, for irrigating the plant according to first control instruction.

The present invention also provides a kind of irrigation control systems comprising：Above-mentioned irrigation server and irrigation terminal.

The present invention also provides a kind of irrigation methods comprising：

It receives and the environmental parameter that real-time measurement obtains is carried out to surrounding's physical environment of plant；

First preset value is compared with the environmental parameter, and it is default to judge whether the environmental parameter reaches first Value；If so, generating the first control instruction；

First control instruction is sent to the terminal for being used to irrigate the plant.

The present invention also provides a kind of irrigation methods comprising：

It obtains and the environmental parameter that real-time measurement obtains is carried out to surrounding's physical environment of plant；

The environmental parameter is sent to server is irrigated；So that the irrigation server is according to the environmental parameter, judgement Whether the environmental parameter reaches the first preset value；If so, generating the first control instruction；

Receive first control instruction for irrigating server feedback；

According to first control instruction, the plant is irrigated.

The beneficial effects of the invention are as follows：According to the real-time surrounding physical environment of plant, judge whether plant needs to irrigate, essence The supply that moisture really is carried out to plant, reduces the waste of water resource, improves working efficiency, reduces the labor intensity of user.

Detailed description of the invention

Fig. 1 is a kind of structure chart of irrigation control system provided in an embodiment of the present invention.

Fig. 2 is a kind of structural block diagram for irrigating server provided by the invention.

Fig. 3 is a kind of structural block diagram for irrigating terminal provided in an embodiment of the present invention.

Fig. 4 is a kind of flow chart of irrigation method provided in an embodiment of the present invention.

Fig. 5 is the flow chart of another irrigation method provided in an embodiment of the present invention.

Specific embodiment

The principle and features of the present invention will be described below with reference to the accompanying drawings, and the given examples are served only to explain the present invention, and It is non-to be used to limit the scope of the invention.

As shown in Fig. 1 to 5, Fig. 1 is a kind of structure chart of irrigation control system provided in an embodiment of the present invention.Fig. 2 is this A kind of structural block diagram of the irrigation server provided is provided.Fig. 3 is a kind of structure for irrigating terminal provided in an embodiment of the present invention Block diagram.Fig. 4 is a kind of flow chart of irrigation method provided in an embodiment of the present invention.Fig. 5 is provided in an embodiment of the present invention another The flow chart of kind irrigation method.

As shown in Figure 1, the irrigation control system of the embodiment of the present invention, including：Internet of Things master controller, Internet of Things service Device, application programming interfaces, data-interface, data analysis processor, web program manager, Internet of Things path control deivce, Internet of Things Terminal control unit, third party's data processor, mobile terminal, sensor.

Internet of Things master controller setting is the Internet of Things server, the application programming interfaces, described in client Data-interface, the data analysis processor and the web program manager are arranged at cloud, the Internet of Things master control Device is connect with the Internet of Things server, and the Internet of Things server is connect with the application programming interfaces, the application program Interface is connect with the data-interface, the data-interface respectively with the data analysis processor and the web program pipe Manage device connection；The Internet of Things path control deivce and the internet-of-things terminal controller are arranged at client, the Internet of Things Net master controller, the Internet of Things path control deivce and the internet-of-things terminal controller are connected with each other, the third number formulary Beyond the clouds according to processor setting, third party's data processor is connect with the application programming interfaces, and the application program connects Mouth is connect with the mobile terminal, and the sensor setting connects in client, the sensor and the Internet of Things master controller It connects.

The sensor is air temperature sensor, air humidity sensor, soil temperature sensor or soil moisture Sensor.

In above structure, the Internet of Things master controller and the Internet of Things server pass through internet or operator's object Networking connection.Between the Internet of Things master controller, the Internet of Things path control deivce and the internet-of-things terminal controller Pass through ZIGBEE or LORA connection.The Internet of Things master controller, the Internet of Things path control deivce and the Internet of Things Terminal control unit is respectively arranged with 4 analog-to-digital conversion ports, 8 output switching terminal mouths, 8 switch input terminal mouths, 1 RS485 and 1 RS232 PORT COM.

The present invention designs a kind of acquisition similar to programmable logic controller (PLC) and control unit is particularly necessary, can be compatible with The acquisition of standard probe, standard control output, the data-interface of standard supports cloud to program and control simultaneously, cloud system is external The interface of offer standard, such system just can extensively receive each strength, really accomplish the networking to object and object, can just accomplish Intelligent irrigation system is widelyd popularize and is applied, is finally reached the purpose for economizing on resources, increasing productivity.

Terminal acquires output unit standardization, compatible all types of detectors.Data center externally internally provides standard interface. Data analysis is studied and judged accurate more intelligent.Terminal acquisition needs to standardize, has analog variable acquisition and numerical variable acquisition function Energy, output unit standardize, for Intelligent irrigation system progress partial function control locally solidifies, major part function control is put into Cloud server data center.Data center externally internally provides standard interface.Support cell phone application real time monitoring and control.Cloud End data artificial intelligence analysis's function.

Programmable logic controller (PLC) technology is made full use of to realize hardware interface standard, programmable.Change in no program The 4-20mA (milliampere) and voltage-type probe that standard is supported in the case where dynamic can also support RS485 and RS232 digital probe simultaneously. Data center externally provides unified standard interface and purview certification system, provides several scenes and mould to internal Internet of Things Version supports various types probe and Various Complex logic control.Data analysis studies and judges function and utilizes artificial intelligence learning functionality not It is disconnected to promote accurate executive capability.

1, effective energy saving and water resource.

2, labour is liberated.

3, crops are accurately controlled and improves yield.

4, field adjustable more rapid and convenient.

5, standard interface, more easily upper hand.

6, cloud Script controlling logic, various script templates can provide most of complex logic real-time control.

7, system cost is cheaper.

8, expert data analysis is provided to study and judge.

A kind of Internet of Things Intelligent programmable irrigation control system of base cloud computing includes cloud data, data interface tier, WEB Management program, data analysis system, api interface program, Internet of Things server, Internet of Things master controller, Internet of Things route test The composition such as device and internet-of-things terminal controller.After local standardized port processing data upload cloud database, cloud by Line programming scheme and artificial intelligence service are assigned and are executed instruction.

The storage of cloud computing technology data and data analysis is made full use of to study and judge.Increase artificial intelligence analysis's technology.Sufficiently Hardware interface standard is realized using programmable logic controller (PLC) technology.

Database 1, data interface tier 2, WEB management program 3, data analysis system 4, API (calling interface) interface routine 5 It is equal all in cloud computing deployment with Internet of Things server 6.Internet of Things master controller 9, Internet of Things path control deivce 11 and Internet of Things are whole Side controller 10 is disposed at the scene.Internet of Things server 6 and Internet of Things master controller 9 pass through internet or operator's Internet of Things network chain It connects.Internet of Things master controller 9 and Internet of Things path control deivce 11 and internet-of-things terminal controller 10 pass through low-consumption wireless (ZIGBEE or LORA) connection.

According to different scenes Internet of Things master controller 9, Internet of Things path control deivce 11, internet-of-things terminal controller 10 With battery power supply, the electric power supply of solar powered or AC Electric Power.Internet of Things master controller 9, Internet of Things path control deivce 11, Internet of Things Network termination controller 10 can work independently but at least one Internet of Things master controller 9.

Internet of Things master controller 9, Internet of Things path control deivce 11, internet-of-things terminal controller 10 can have 4 moulds Number conversion port, 8 output switching terminal mouths, 8 switch input terminal mouths, 1 RS485 PORT COM, 1 RS232 PORT COM.

9 primary recipient of Internet of Things master controller forwards the data from Internet of Things server 6 to Internet of Things route test Device 11 and internet-of-things terminal controller 10.

11 primary recipient of Internet of Things path control deivce or forwarding come from Internet of Things master controller 9 and internet-of-things terminal controller 10 data or local data are sent to Internet of Things master controller 9.

Number of 10 primary recipient of internet-of-things terminal controller from Internet of Things master controller 9 or Internet of Things path control deivce 11 According to or send local data to Internet of Things master controller 9 or Internet of Things path control deivce 11.

Internet of Things server 6 is by 5 acquisition instruction of api interface program or uploads data, and Internet of Things server 6 passes through Socket service receives each 9 data of Internet of Things master controller and decodes to be uploaded to database by api interface program after verifying.

The functions such as cell phone application is logged in user, status inquiry, control equipment, and false alarm is checked, other third number formularies The third-party platforms such as weather forecast, agriculture feelings can be connect according to 8, and data or acquisition data are provided.WEB management program 3 is stepped on user Land, rights management, project management, controller management, terminal management, data sheet, log recording such as check at the functions.

Data analysis system 4 provides irrigation plan after studying and judging by analysis, this function provides online programming, artificial intelligence Can service etc..

As shown in Fig. 2, the irrigation server of the embodiment of the present invention comprising：

First receiving module carries out in fact surrounding's physical environment of plant for receiving the terminal for irrigating the plant When the obtained environmental parameter of measurement；

Specifically, environmental parameter can be air themperature, air humidity, the soil moisture or soil moisture.

Processing module, for the first preset value inside the processing module to be compared with the environmental parameter, and Judge whether the environmental parameter reaches the first preset value；If so, generating the first control instruction；

First sending module, the first control instruction for generating the processing module, which is sent to, is used to irrigate the plant The terminal of object.

Meteorological data consists of three parts.Firstly, when crop-planting starts or plan do not have real time meteorological data in plantation, It is analyzed using Software Create meteorological data, can solve the problems such as estimating crop yield：Secondly, after plantation starts, from Sensor obtains real time meteorological data (or the data grabbed from weather station) time for having completed and is calculated based on true gas The crop irrigation of image data simulates achievement；Finally, carrying out analysis meter according to forecast data when the data for being collected into weather forecast It calculates, crop growth conditions and soil water regime after can predicting following a couple of days.

Irrigating model decision is the mathematical model calculated using soil water balance principle.Minimum soil water content： Wmin=WP+0.9* (FC-WP), maximum soil water content：Wmax=ST*0.3.In formula：

WP soil moisture wilting coefficient one by one；Wmin minimum allowable soil storage one by one；Wmax maximum allowable soil one by one Earth moisture storage capacity；FC water-retaining quantity among field of soil；ST saturated soil water content.

Soil water content is kept to be maintained between Wmin~Wmax.According to the requirement sufficiently irrigated, when no effective rainfall When, the moisture storage capacity in irrigation wetting depth is irrigated, since the consumption moisture of crop is close to Wmin to supplement water at this time Amount.

At this time：M=Wmax-Wmin-Wr-Po-K+ET.In formula：Wmin minimum allowable soil storage；Wmax is maximum allowable Soil storage；Wr-- increased water due to irrigation wetting depth increase；The increment of groundwater in K-- period t, i.e. K= kt*0.1；Duty in M-- period t；Crop field water demand in ET-- period t, ET=et, e are average in the t period Crop field water demand；P_O-- it is stored in the effective rainfall in planned moist layer in soil.

Execute deficit irrigation, practical irrigation quantity:Between Mn=Kn*M, Kn=0-1.In formula：Practical filling in Mn-- period t Irrigate water；Readjust-loss in Kn-period t is poured water coefficient.

Simulate the water consumption process of crops.Model meteorologic parameter is acquired using Internet of Things intelligent data sensor, passes through work Object COEFFICIENT K c and leaf area index LAI high correlation obtain LAI using leaf area index sensor and determine irrigation quantity.According to Crop growth model counts crop in the LA I of each breeding time, derives real-time crop wager requirements.

The initial time poured water can by agronomy, fertilising, planting technology according to fertilizer irrigation it needs to be determined that.It can be by crop Bearing time table is previously set, can also be by program automatically according to crop environmental condition, and mainly crop wager requirements variation is automatic It provides.If the starting irrigation period of no agronomist's input is done by system according to the difference of monitoring crop canopy temperature and temperature The Time Forecast irrigated out, triggering irrigation system work.The size of crop irrigation quantity is provided by decision-making module of pouring water of the invention.

Deficit irrigation is the efficient water-saving irrigation method for confirming to improve the yield and quality beneficial to crop by experiment.Readjust-loss Irrigation is artificially to apply a degree of water stress to crop, to influence plant growth, yield positive results and mature process, is led to Crossing water shortage allows crop root to improve self progress moisture adjustment under drought condition, and the quality of long-term cropping is improved by adjusting And efficiency of water application.System devises the subroutine module of adjustable irrigation quantity, which is exactly to utilize deficit irrigation Achieve the purpose that improve crop yield or fruit quality.

Fig. 3 is irrigation control flow chart of the invention.It is the control program circuit of irrigation controller, and emphasis is in system After obtaining irrigation quantity size, the time of the solenoid valve operation of control is determined according to Tr=V/Q.Here, Tr is irrigation period (h)；V It is irrigation quantity (m³)；Q is to irrigate flow (m3/h).

Irrigation control system uses general plant growth of the invention and irrigation decision control system model, completes to irrigate control Task processed.Since the integrity degree that local data arithmetic speed limited and obtained climatic data is inadequate, can tire out when calculating Product error, therefore irrigate the data-optimized calculating of accumulation that machine control system can update from now in conjunction with Internet of Things cloud server, energy Make accurate irrigation water decision as far as possible.

A kind of irrigation server provided by the invention judges whether plant needs according to the real-time surrounding physical environment of plant It irrigates, the supply of moisture is accurately carried out to plant, reduce the waste of water resource, improve working efficiency, reduce the labor of user Fatigue resistance.

Optionally, in this embodiment, which further includes：Second receiving module and the second sending module, second Receiving module, for receiving the second control instruction of user's input；

Processing module, for the second preset value being determined, by second preset value and institute according to second control instruction It states environmental parameter to be compared, and judges whether the environmental parameter reaches the second preset value；Refer to if so, generating third control It enables；

Specifically, according to actual needs, preset value is independently arranged in user, and server is true according to the control instruction that user inputs Fixed second preset value, and the second preset value is stored to database, it is called in the future convenient for user, so that server has autonomous learn Practise function.

Second sending module, the third control instruction for generating the processing module, which is sent to, is used to irrigate the plant The terminal of object.

Optionally, in this embodiment, which further includes：Third receiving module,

Third receiving module, for receiving the weather forecast information of third-party platform offer；

Processing module, for third preset value being determined, by the third preset value and institute according to the weather forecast information It states environmental parameter to be compared, and judges whether the environmental parameter reaches third preset value；Refer to if so, generating the 4th control It enables；

Second sending module, the 4th control instruction for generating the processing module, which is sent to, is used to irrigate the plant The terminal of object.

The embodiment of the present invention also provides a kind of irrigation terminal, as shown in figure 3, the terminal includes：First obtains module, is used for It obtains and the environmental parameter that real-time measurement obtains is carried out to surrounding's physical environment of plant；

First sending module obtains the environmental parameter that module obtains for sending described first to irrigation server； So that the irrigation server is according to the environmental parameter, judge whether the environmental parameter reaches the first preset value；If so, Generate the first control instruction；

First receiving module, for receiving first control instruction for irrigating server feedback；

Execution module, for irrigating the plant according to first control instruction.

Optionally, in this embodiment, the terminal further includes：Second receiving module,

Second receiving module, the third control instruction generated for receiving the irrigation server；

Execution module, for irrigating the plant according to the third control instruction.

Optionally, in this embodiment, the terminal further includes：Third receiving module,

Third receiving module, the 4th control instruction generated for receiving the irrigation server；

Execution module, for irrigating the plant according to the 4th control instruction.

The embodiment of the present invention also provides a kind of irrigation control system, including above-mentioned irrigation server and irrigation terminal.

Correspondingly, the embodiment of the present invention also provides a kind of irrigation method, as shown in figure 4, this method includes：

S401, the environmental parameter that surrounding's physical environment progress real-time measurement to plant obtains is received；

S402, the first preset value is compared with the environmental parameter, and judges whether the environmental parameter reaches One preset value；If so, generating the first control instruction；

S403, first control instruction is sent to the terminal for being used to irrigate the plant.

The embodiment of the present invention also provides a kind of irrigation method, as shown in figure 5, this method includes：

S601, the environmental parameter that surrounding's physical environment progress real-time measurement to plant obtains is obtained；

S602, the environmental parameter is sent to irrigation server；So that the irrigation server is according to the environmental parameter, Judge whether the environmental parameter reaches the first preset value；If so, issuing the first control instruction；

S603, first control instruction for irrigating server feedback is received；

S604, according to first control instruction, the plant is irrigated.

Optionally, in this embodiment, this method further includes：

Environmental parameter is air themperature, air humidity, the soil moisture or soil moisture.

Those of ordinary skill in the art will appreciate that：Realize that all or part of the steps of above-mentioned each method embodiment can lead to The relevant hardware of program instruction is crossed to complete.Program above-mentioned can be stored in a computer readable storage medium.The journey When being executed, execution includes the steps that above-mentioned each method embodiment to sequence；And storage medium above-mentioned includes：ROM, RAM, magnetic disk or The various media that can store program code such as person's CD.

Finally it should be noted that：The above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；To the greatest extent Present invention has been described in detail with reference to the aforementioned embodiments for pipe, those skilled in the art should understand that：Its according to So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into Row equivalent replacement；And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution The range of scheme.

Claims (10)

1. a kind of irrigation server, which is characterized in that including：

First receiving module surveys surrounding's physical environment of plant for receiving the terminal for irrigating the plant in real time The environmental parameter measured；

Processing module for the first preset value inside the processing module to be compared with the environmental parameter, and judges Whether the environmental parameter reaches the first preset value；If so, generating the first control instruction；

First sending module, the first control instruction for generating the processing module, which is sent to, is used to irrigate the plant Terminal.

2. irrigation server according to claim 1, which is characterized in that further include：Second receiving module and the second hair Module is sent,

Second receiving module, for receiving the second control instruction of user's input；

Processing module, for the second preset value being determined, by second preset value and the ring according to second control instruction Border parameter is compared, and judges whether the environmental parameter reaches the second preset value；If so, generating third control instruction；

Second sending module, the third control instruction for generating the processing module, which is sent to, is used to irrigate the plant Terminal.

3. irrigation server according to claim 1, which is characterized in that further include：Third receiving module,

Third receiving module, for receiving the weather forecast information of third-party platform offer；

Processing module, for third preset value being determined, by the third preset value and the ring according to the weather forecast information Border parameter is compared, and judges whether the environmental parameter reaches third preset value；If so, generating the 4th control instruction；

Second sending module, the 4th control instruction for generating the processing module, which is sent to, is used to irrigate the plant Terminal.

4. a kind of irrigation terminal, which is characterized in that including：

First obtains module, carries out the environmental parameter that real-time measurement obtains for obtaining surrounding's physical environment to plant；

First sending module obtains the environmental parameter that module obtains for sending described first to irrigation server；So as to The irrigation server judges whether the environmental parameter reaches the first preset value according to the environmental parameter；If so, generating First control instruction；

First receiving module, first control instruction generated for receiving the irrigation server；

Execution module, for irrigating the plant according to first control instruction.

5. irrigation terminal according to claim 4, which is characterized in that further include：Second receiving module,

Second receiving module, the third control instruction generated for receiving the irrigation server；

Execution module, for irrigating the plant according to the third control instruction.

6. irrigation terminal according to claim 4, which is characterized in that further include：Third receiving module,

Third receiving module, the 4th control instruction generated for receiving the irrigation server；

Execution module, for irrigating the plant according to the 4th control instruction.

7. a kind of irrigation control system, which is characterized in that including：Irrigation server as claimed in claim 1,2 or 3 and such as power Benefit require 4,5 or 6 described in irrigation terminal.

8. a kind of irrigation method, which is characterized in that including：

It receives and the environmental parameter that real-time measurement obtains is carried out to surrounding's physical environment of plant；

First preset value is compared with the environmental parameter, and judges whether the environmental parameter reaches the first preset value； If so, generating the first control instruction；

First control instruction is sent to the terminal for being used to irrigate the plant.

9. a kind of irrigation method, which is characterized in that including：

It obtains and the environmental parameter that real-time measurement obtains is carried out to surrounding's physical environment of plant；

The environmental parameter is sent to server is irrigated；So that the irrigation server is according to the environmental parameter, described in judgement Whether environmental parameter reaches the first preset value；If so, generating the first control instruction；

Receive first control instruction for irrigating server feedback；

According to first control instruction, the plant is irrigated.

10. a kind of irrigation method according to claim 9, which is characterized in that the environmental parameter is air themperature, air Humidity, the soil moisture or soil moisture.