CN205809599U - A kind of greenhouse-environment monitoring system based on Internet of Things - Google Patents

Abstract

This utility model patent relates to a kind of greenhouse-environment monitoring system based on Internet of Things, including: mobile terminal, computer monitoring platform, ZigBee radio receiving transmitting module and some measuring control points everywhere in being distributed in booth；Described mobile terminal is connected with computer monitoring platform by the Internet, it is achieved the long-range monitoring of greenhouse-environment；Described computer monitoring platform is connected with the data acquisition/controller of measuring control point by radio receiving transmitting module, carries out data process and exchange；Described data acquisition/controller and green house temperature-humidity sensor, optical sensor, CO₂Concentration sensor, soil temperature-moisture sensor are connected, monitoring greenhouse-environment parameter, it is connected with firing equipment, luminaire, irrigation equipment, roller shutter equipment, ventilation installation simultaneously, the factor affecting greenhouse-environment is controlled by, this utility model simple in construction, practical, simple to operate, it is possible to realize the monitoring management to multiple booths.

Description

A kind of greenhouse-environment monitoring system based on Internet of Things

Technical field

This utility model relates to a kind of greenhouse-environment monitoring system based on Internet of Things, it is achieved to environment real-time in booth Monitoring, belongs to Internet of Things application.

Background technology

Along with the development of the technology reaching its maturity and being wirelessly transferred of sensor technology, Internet of Things progresses into people The visual field, it there has also been preliminary application in agricultural production.Modern agriculture scientific investigations showed that, uses booth to improve Crop yield and production efficiency, reduce the risk that natural disaster is brought, and greenhouse-environment is added by traditional booth many employings manpower With regulation and control, not only inefficiency, and waste time and energy, virtually improve the production cost of product.Meanwhile, the kind of greenhouse crops Class is the abundantest, and Different Crop is the most different to the requirement of environment, and the control accuracy of Non-follow control is also increasingly difficult to full Foot booth production requirement.

Utility model content

Utility model purpose: the purpose of this utility model is that designing the monitoring of a kind of greenhouse-environment based on Internet of Things is System, helps peasant household to monitor greenhouse-environment situation in real time, improves crop yield.

Technical scheme: a kind of based on Internet of Things the greenhouse-environment monitoring system described in this utility model patent, including: move Dynamic terminal, computer monitoring platform, ZigBee radio receiving transmitting module and some measuring control points everywhere in being distributed in booth；

Described mobile terminal includes smart mobile phone and pad, and it is connected with computer monitoring platform by the Internet, it is achieved big The long-range monitoring of canopy environment；

Described computer monitoring platform arranges for information and processes, and by the data of radio receiving transmitting module with measuring control point Collection/controller is connected, and carries out data exchange；

Described data acquisition/controller uses TMS320F2812 type DSP, itself and green house temperature-humidity sensor, illumination sensing Device, CO₂Concentration sensor, soil temperature-moisture sensor are connected, in order to monitor greenhouse-environment parameter, simultaneously with firing equipment, photograph Bright equipment, irrigation equipment, roller shutter equipment, ventilation installation are connected, and are controlled by the factor affecting greenhouse-environment；

Described green house temperature-humidity sensor uses DWS-S8 Temperature Humidity Sensor, for detecting the humiture of booth；

Described optical sensor uses HA2003 type optical sensor, is used for monitoring light conditions in canopy；

Described CO₂Concentration sensor uses BMG-CO₂-NDIR type sensor, is used for monitoring CO in canopy₂Concentration；

Described soil temperature-moisture sensor uses the monitoring of PH-TS soil humidity sensor, FC-TRW soil temperature sensor Soil temperature and humidity；

Described firing equipment, is used for regulating temperature of shed；

Described luminaire, is used for adjusting intensity of illumination in canopy；

Described irrigation equipment, in being used for regulating canopy and soil moisture；

Described rolling motor, is used for controlling plastic house thing, thus adjusts booth and soil temperature and humidity, intensity of illumination Joint；

Described ventilation installation, is used for regulating CO₂Concentration, booth and soil temperature and humidity；

Accompanying drawing explanation

Fig. 1 is a kind of greenhouse-environment monitoring system structural representation based on Internet of Things of this utility model.

Detailed description of the invention

Below in conjunction with the accompanying drawings embodiment of the present utility model is elaborated: the present embodiment is with this utility model technology Implement under scheme premise, give detailed embodiment and concrete operating process, but protection model of the present utility model Enclose and be not limited to following embodiment.

Embodiment: as it is shown in figure 1, this utility model is a kind of greenhouse-environment monitoring system based on Internet of Things, including: move Dynamic terminal, computer monitoring platform, ZigBee radio receiving transmitting module and some measuring control points everywhere in being distributed in booth；

Described mobile terminal includes smart mobile phone and pad, and it is connected with computer monitoring platform by the Internet, Yong Huke By smart mobile phone or pad, greenhouse-environment is remotely monitored；

Described computer monitoring platform arranges for information and processes, and by the data of radio receiving transmitting module with measuring control point Collection/controller is connected, and carries out data exchange, and greenhouse-environment parameter can be configured by user at computer monitoring platform, and Corresponding operating is performed by the various equipment of control point；

Described data acquisition/controller uses TMS320F2812 type DSP, itself and green house temperature-humidity sensor, illumination sensing Device, CO₂Concentration sensor, soil temperature-moisture sensor are connected, and are used for receiving and processing the greenhouse-environment ginseng of each Sensor monitoring Number, sends computer monitoring platform to by ZigBee radio receiving transmitting module, receives the instruction of computer monitoring platform simultaneously, and By controlling coupled firing equipment, luminaire, irrigation equipment, roller shutter equipment, ventilation installation, on affecting greenhouse-environment Factor regulated；

Described green house temperature-humidity sensor uses DWS-S8 Temperature Humidity Sensor, for detecting the humiture of booth, booth Temperature uses rolling motor and ventilation installation to be adjusted, and booth humidity is mainly adjusted by irrigation equipment；

Described optical sensor uses HA2003 type optical sensor, is used for monitoring light conditions in canopy, and booth is looked after strong Degree is adjusted by rolling motor and luminaire；

Described CO₂Concentration sensor uses BMG-CO₂-NDIR type sensor, is used for monitoring CO in canopy₂Concentration, agricultural greenhouse Interior CO₂Concentration typically keeps consistent with the concentration value of air, is mainly adjusted by ventilation installation；

Described soil temperature-moisture sensor uses the monitoring of PH-TS soil humidity sensor, FC-TRW soil temperature sensor Soil temperature and humidity, the humiture of soil is mainly adjusted by ventilation installation, roller shutter equipment and irrigation equipment；

Although as it has been described above, represented and described this utility model with reference to being specifically preferable to carry out case, but it is not The restriction to this utility model self must be construed to.At the spirit of the present utility model defined without departing from claims and model Enclose under premise, it can be made a variety of changes in form and details.

Claims (2)

1. a greenhouse-environment monitoring system based on Internet of Things, including: mobile terminal, computer monitoring platform, ZigBee without Line transceiver module and some measuring control points everywhere in being distributed in booth；Described mobile terminal passes through the Internet and computer monitoring Platform is connected；Described computer monitoring platform is by the data acquisition/controller phase of ZigBee radio receiving transmitting module with measuring control point Even；Described data acquisition/controller and green house temperature-humidity sensor, optical sensor, CO₂Concentration sensor, soil temperature and humidity Sensor is connected, and monitors greenhouse-environment parameter, simultaneously with firing equipment, luminaire, irrigation equipment, roller shutter equipment, ventilating sets Standby connected, the factor affecting greenhouse-environment is controlled by.

A kind of greenhouse-environment monitoring system based on Internet of Things the most according to claim 1, it is characterised in that: data acquisition Collection/controller uses TMS320F2812 type DSP, and Temperature Humidity Sensor model is DWS-S8, and optical sensor model is HA2003, CO₂Concentration sensor model is BMG-CO₂-NDIR, soil humidity sensor model is PH-TS, and the soil moisture senses Type number is FC-TRW.