CN204028651U

CN204028651U - A kind of monitoring of the industrialized agriculture based on Internet of Things and service system

Info

Publication number: CN204028651U
Application number: CN201420199404.3U
Authority: CN
Inventors: 不公告发明人
Original assignee: Futureweather (beijing) Meteorological Technology Co Ltd
Current assignee: Fujing Tiance Beijing Technology Group Co ltd
Priority date: 2014-04-23
Filing date: 2014-04-23
Publication date: 2014-12-17
Anticipated expiration: 2024-04-23

Abstract

The utility model belongs to modern agriculture informationization technology field, particularly a kind of monitoring and facility monitoring that utilizes intelligent sensor technology, wireless communication technology to solve plant growth key element.Described industrialized agriculture monitoring and service system, comprise local monitoring network, Internet Server and client terminal, and described local monitoring network, Internet Server, client terminal connect by Zigbee communication; The utility model equipment is easy to use, cheap; Each node module adopts radio communication, lays convenient, simple; Use the not only coverage of extended network significantly of router, also increased the quantity of access node, realized dynamic group net, and increase and extended function module on original system without impact; The utility model also adopts MEMS technical sensor in a large number, farthest reduces sensor die block cost, makes whole industrialized agriculture monitoring and service system under the prerequisite that meets monitor control index, significantly reduces construction and maintenance cost.

Description

A kind of monitoring of the industrialized agriculture based on Internet of Things and service system

Technical field:

The utility model belongs to modern agriculture informationization technology field, particularly a kind of system of utilizing intelligent sensor technology, wireless communication technology to solve the monitoring of plant growth key element and facility monitoring.

Background technology:

In recent years, Internet of Things (Internet of things) concept attracts people's attention, along with the policy inclination of countries in the world government to Internet of Things industry and support energetically and the input of enterprise, Internet of Things industry is by expediting the emergence of rapidly, show according to data both domestic and external, Internet of Things has carried out great development so far from 1999, infiltrate through each industry field.What can predict is that increasing industry field and technology, application meeting and Internet of Things produce intersection.At present, Internet of Things also has broad application prospects at agriculture field.

Agricultural Internet of Things,, in greenhouse control system, uses temperature sensor, humidity sensor, pH value sensor, optical sensor, the CO of Internet of things system ₂sensor equipment, the temperature in testing environment, relative humidity, pH value, intensity of illumination, soil nutrient, CO ₂the physical indexs such as concentration, are shown in real time or are participated in automatic control as the parameter of automatically controlling by various instrument and meters, ensure that crops have good, a suitable growing environment.The realization of Long-distance Control makes technician just can carry out Monitoring and Controlling to the environment of multiple booths in office.Adoption Network is measured and is obtained the top condition of plant growth, can provide scientific basis for greenhouse control accurate, reaches volume increase, improves quality, growth regulation cycle, the object of increasing economic efficiency.

Current, the application of Internet of Things aspect industrialized agriculture is mainly by adopting at the scene cable network to connect, then transfer data to network and provide services on the Internet by the network of on-the-spot Central Control Room, adopt wired mode to connect that to have communication reliable, the advantage that stability is strong, but simultaneously also from some defects, as large in engineering construction amount, difficult in maintenance, cost is higher, and network coverage is restricted, and in use also comparatively inconvenient; Meanwhile, existing environment TT&C system ambient signal interface arranges single, can not select to connect different sensors according to different environmental demands, and node module quantity is few.

Utility model content:

In order to overcome the deficiencies in the prior art, the utility model provides a kind of monitoring of the industrialized agriculture based on Zigbee wireless communication protocol and service system, described industrialized agriculture monitoring and service system are totally by local monitoring network, Internet Server and client terminal, under the support of internet, build and form, this system is easy to use, cheap, under the prerequisite that meets monitor control index, significantly reduce construction and maintenance cost, expand network coverage, for agriculture management person especially vast farmers provides products & services a kind of not only useful but also that afford to use.

To achieve these goals, the utility model provides following technical scheme:

Industrialized agriculture monitoring and a service system based on Internet of Things, comprise local monitoring network, Internet Server and client terminal, and described local monitoring network, Internet Server, client terminal connect by Zigbee communication;

Described Internet Server, for data storage and the application service center of system;

Described client, for the various services of client device receiving system, described client device is computer or mobile phone;

Described local monitoring network comprises central control unit module, router-module, sensor assembly and controller module; Described central control unit module adopts GPRS mode to be connected with controller module, and described controller module is connected with sensor assembly, router-module respectively, and described connected mode adopts radio communication;

Described central control unit module arranges telegon, GPRS module and back-up source;

Described sensor assembly at least comprises temperature sensor, humidity sensor, baroceptor, optical sensor, soil temperature sensor, soil humidity sensor and CO ₂sensor;

Described sensor setting execution module, described execution module is connected by communication with sensor, and for the exchange of data, the parameters such as interior humidity, air pressure, illumination control environment;

Described each sensor arranges respectively overload alarm, sudden change is reported to the police and overtime warning;

Described warning provides to user with note or micro-letter form;

Described sensor assembly adopts MEMS technical sensor;

Described router-module arranges multiple access nodes, and described access node quantity is that single network capacity amount is greater than 100;

Principle of work: in use, system is delivered to controller module by Zigbee radio communication by each sensor assembly image data, transferring data to central control unit by GPRS, Internet Server receives, process the data from central control unit, the data of central control unit offer client by Internet Server or mobile radio communication, the user of client completes after the configuration information and manipulation information of own equipment, be sent to Internet Server, Internet Server passes through central control unit again, controller, sensor sends to the execution module of appointment, complete the control function to facility.

Beneficial effect:

The utility model equipment is easy to use, cheap; Each node module adopts radio communication, lays convenient, simple; Use the not only coverage of extended network significantly of router, also increased the quantity of access node, realized dynamic group net, dynamically increase sensor, controller module quantity, and increase and extended function module on original system without impact; The utility model also adopts MEMS technical sensor in a large number, farthest reduces sensor die block cost, saves money laborsaving; Make the monitoring of whole industrialized agriculture with service system under the prerequisite that meets monitor control index, significantly reduce construction and maintenance cost, for agriculture management person especially vast farmers provides products & services a kind of not only useful but also that afford to use.

Brief description of the drawings:

Fig. 1 is industrialized agriculture monitoring and service system structural drawing;

Fig. 2 is the structural drawing of local monitoring net;

The local monitoring net 21-central control unit of 1-Zigbee radio communication 2-module 211-telegon 212-GPRS module 213-back-up source 22-controller module 23-router-module 24-sensor assembly 3-Internet Server 4-client terminal in figure.

Embodiment:

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As shown in Figure 1, a kind of monitoring of the industrialized agriculture based on Internet of Things and service system, comprise local monitoring network 2, Internet Server 3 and client terminal 4, described local monitoring network 2, Internet Server 3, client terminal 4 connect by Zigbee radio communication 4 modes;

Described Internet Server 3, for data storage and the application service center of system;

Described client terminal 4, for the various services of client device receiving system, described client device is computer;

As shown in Figure 2, described local monitoring network 2 comprises central control unit module 21, controller module 22, router-module 23 and sensor assembly 24; Described central control unit module 21 adopts GPRS mode to be connected with controller module 22, and described controller module 22 is connected with sensor assembly 24, router-module 23 respectively, and described connected mode adopts radio communication;

Described central control unit module arranges telegon 211, GPRS module 212 and back-up source 213;

Described sensor assembly 24 at least comprises temperature sensor, humidity sensor, baroceptor, optical sensor, soil temperature sensor, soil humidity sensor and CO ₂sensor;

Described temperature sensor, humidity sensor, baroceptor, optical sensor, soil temperature sensor, soil humidity sensor and CO ₂sensor arranges respectively overload alarm, sudden change is reported to the police and overtime warning;

Described warning provides to user with note or micro-letter form;

Described sensor assembly 24 adopts MEMS technical sensor;

Described router-module 23 arranges multiple access nodes, and described access node quantity is that single network capacity amount is greater than 100.

Certainly; above-mentioned explanation is not to restriction of the present utility model; the utility model is also not limited in above-mentioned giving an example, and variation, remodeling, interpolation or replacement that those skilled in the art make in essential scope of the present utility model, also should belong to protection domain of the present utility model.

Claims

1. the monitoring of the industrialized agriculture based on Internet of Things and a service system, comprise local monitoring network, Internet Server and client terminal; Described local monitoring network, Internet Server, client terminal connect by communication; Described Internet Server, for data storage and the application service center of system; The equipment of described client is computer or mobile phone, for the various services of receiving system; It is characterized in that: described local monitoring network comprises central control unit module, router-module, sensor assembly and controller module; Described central control unit module adopts GPRS mode to be connected with controller module, described controller module is connected with sensor assembly, router-module respectively, described connected mode adopts radio communication, and described central control unit arranges telegon, GPRS module and back-up source; Described sensor assembly adopts MEMS technical sensor; Described router-module arranges multiple access nodes, and described access node quantity is that single network capacity amount is greater than 100.

2. the monitoring of the industrialized agriculture based on Internet of Things according to claim 1 and service system, it is characterized in that, described sensor assembly comprises temperature sensor, humidity sensor, baroceptor, optical sensor, soil temperature sensor, soil humidity sensor and CO ₂sensor.

3. the monitoring of the industrialized agriculture based on Internet of Things according to claim 2 and service system, is characterized in that, described sensor setting execution module, and described execution module is connected by communication with sensor.

4. the monitoring of the industrialized agriculture based on Internet of Things according to claim 2 and service system, is characterized in that, described each sensor arranges respectively overload alarm, sudden change is reported to the police and overtime warning.

5. the monitoring of the industrialized agriculture based on Internet of Things according to claim 4 and service system, is characterized in that, described warning provides to user with note or micro-letter form.