CN205826888U - Distributed farmland based on Internet of Things weather station system - Google Patents

Abstract

Distributed farmland based on Internet of Things weather station system, it includes meteorological collecting unit, on-the-spot meteorological main frame, transport network layer, cloud computing center, application software client, described meteorological collecting unit is attached by line with scene meteorology main frame, described on-the-spot meteorological main frame is by transport network layer and cloud computing center UNICOM, and cloud computing center is by software sending and receiving apparatus and application software client UNICOM.The data of the weather station of deployment can be checked by mobile phone terminal anywhere, solve in the case of there is no computer or there is no netting twine, it is impossible to the problem checking meteorological data in time；It is meteorological for PM2.5, the growth of the monitoring of formaldehyde pollutants, beneficially crop and food safety that system has increased farmland newly.

Description

Distributed farmland based on Internet of Things weather station system

Technical field

This utility model relates to weather monitoring device field, farmland, relates particularly to distributed farmland based on Internet of Things Weather station system.

Background technology

Along with the development of science and technology, agriculturally for improving the yield of large-scale agriculture, currently for farmland meteorologic analysis Serve the effect of key, by the analysis for relevant parameters such as the fertility in concrete farmland, illumination, humitures, it is possible to the most straight Seeing and be effectively adjusted optimally, meteorological watch station, present farmland system is more and more applied, current farmland Weather station is observed and is had the disadvantage that 1, weather station carries out displaying and the management of data based on computer, is not having computer and network In the case of, it is impossible to normally use.2, weather station does not use distributed mode to be designed, and needs the equipment gathered more Time, inefficient, data volume big requirement cannot be solved by horizontal extension software system during efficiency height.Cannot be timely Process factual data, cannot preserve for a long time when data volume is big, but long-term Monitoring Data is for the research and certainly of agricultural production Plan is the most extremely important.3, weather station, farmland also not for the bigger PM2.5 of crop growth impact, formaldehyde is isoparametric adopts Set analysis is supported.4, the data of weather station do not account for the compatibility of different platform system, if the equipment of a producer thinks collection Become to extremely difficult in the control system of another family, be unfavorable for that the reduction shared, cost of resource improves with the productivity.

Summary of the invention

The purpose of this utility model is to provide a kind of based on Internet of Things distributed agriculture that can overcome above-mentioned technical deficiency Field weather station system.

For achieving the above object, the technical solution adopted in the utility model is: distributed farmland based on Internet of Things is meteorological Standing system, it includes meteorological collecting unit, on-the-spot meteorological main frame, transport network layer, cloud computing center, application software client, Described meteorological collecting unit is attached by line with scene meteorology main frame, and described on-the-spot meteorological main frame is transmitted by network Layer and cloud computing center UNICOM, cloud computing center is by software sending and receiving apparatus and application software client UNICOM.

Described meteorological collecting unit include air temperature sensor, air humidity sensor, carbon dioxide sensor, PM2.5 sensor, intensity of illumination sensor, formaldehyde sensor, air velocity transducer, wind transducer, rainfall amount sensor, evaporation One or more of quantity sensor.

Described transport network layer use support GPRS, the Big Dipper, TD-SWCDMA, WCDMA, TD-LTE, FDD-LTE, One or more of Internet communication protocol.

Described application software client include cell-phone customer terminal, pc client one or more.

The beneficial effects of the utility model are:

1. can be checked the data of the weather station of deployment by mobile phone terminal anywhere, solve and there is no computer or do not have In the case of having netting twine, it is impossible to the problem checking meteorological data in time；

2. system is based on Development of Distributed System, has carried out function fractionation, greatly from hardware layer, communication layers, software layer Decrease the coupling of each module；The particularly distributed support of software layer, system when equipment high-volume is disposed that solves processes effect The problem that rate is low.Reduce the extension cost of system, it is provided that the treatment effeciency of big data.

3. system has increased farmland meteorology newly for PM2.5, the growth of the monitoring of formaldehyde pollutants, beneficially crop and food Safety.

4. system is encapsulated, and develops external software operation and data-interface, in that context it may be convenient to and third party Platform intergration, has extremely strong compatibility.

5. platform data keeps for a long time, and for the meteorological research in farmland, that the research of agricultural production provides is the most permanent Data.

6. by this cover system, greatly improve the level of IT application of agricultural production, level monitoring, pre-alerting ability and Production efficiency.

Accompanying drawing explanation

Fig. 1 is structure connection diagram of the present utility model.

Detailed description of the invention

Based on Internet of Things distributed farmland weather station system as shown in Figure 1, it includes meteorological collecting unit, on-the-spot gas As main frame, transport network layer, cloud computing center, application software client, described meteorological collecting unit and scene meteorology main frame Being attached by line, described on-the-spot meteorological main frame is led to by transport network layer and cloud computing center UNICOM, cloud computing center Cross software sending and receiving apparatus and application software client UNICOM.Described meteorological collecting unit include air temperature sensor, Air humidity sensor, carbon dioxide sensor, PM2.5 sensor, intensity of illumination sensor, formaldehyde sensor, wind speed sense Device, wind transducer, rainfall amount sensor, evaporation sensor one or more.Described transport network layer uses to be supported GPRS, the Big Dipper, TD-SWCDMA, WCDMA, TD-LTE, FDD-LTE, Internet communication protocol one or more.Described Application software client include cell-phone customer terminal, pc client one or more.

On-the-spot meteorological main frame is carried out data exchange with cloud computing center by transport network layer and is communicated, and transport network layer props up Hold GPRS, the Big Dipper, TD-SWCDMA, WCDMA, TD-LTE, FDD-LTE, Internet communication protocol.Meteorological collecting unit is with existing The meteorological main frame in field carries out local area network communication by Zigbee or RS485 or RF433 agreement.Mobile phone terminal passes through GPRS, TD- The data of SWCDMA, WCDMA, TD-LTE, FDD-LTE communication protocol and cloud computing center and operation interface system carry out data and Operation exchange.Computer end by the data of Internet communication protocol and cloud computing center and operation interface system carry out data and Operation exchange.The analog quantity of sensor acquisition is converted into digital quantity by ADC by collecting unit.On-the-spot main frame is by acquisition node The digitized meteorologic parameter managed, is transferred to cloud computing center by transport network layer.

Claims (4)

1. distributed farmland based on Internet of Things weather station system, is characterized in that: it includes meteorological collecting unit, on-the-spot meteorological master Machine, transport network layer, cloud computing center, application software client, described meteorological collecting unit passes through with scene meteorology main frame Line is attached, and described on-the-spot meteorological main frame is by transport network layer and cloud computing center UNICOM, and cloud computing center is by soft Part sending and receiving apparatus and application software client UNICOM.

Distributed farmland based on Internet of Things the most according to claim 1 weather station system, is characterized in that: described meteorology Collecting unit includes air temperature sensor, air humidity sensor, carbon dioxide sensor, PM2.5 sensor, intensity of illumination Sensor, formaldehyde sensor, air velocity transducer, wind transducer, rainfall amount sensor, the one of evaporation sensor or many Kind.

Distributed farmland based on Internet of Things the most according to claim 1 weather station system, is characterized in that: described network Transport layer uses supports GPRS, the Big Dipper, the one of TD-SWCDMA, WCDMA, TD-LTE, FDD-LTE, Internet communication protocol Or it is multiple.

Distributed farmland based on Internet of Things the most according to claim 1 weather station system, is characterized in that: described application Software client include cell-phone customer terminal, pc client one or more.