CN204314709U - A kind of wisdom agricultural greenhouse long distance control system - Google Patents

Abstract

The utility model discloses a kind of wisdom agricultural greenhouse long distance control system, system comprises the webserver, web remote browser, greenhouse-environment information acquisition network element, booth control module and control center's platform, system employing CC2530 is the zigbee communication module of core, realize air themperature, humidity, soil moisture gathers, the controls transfer of each opertaing device is completed by the wifi communication facilities with the embedded module of HF-A11x, and by gateway, the information collected is reached web remote browser, long-range PC can observe collected relevant humiture by browser, long-range watering can also be realized at PC end, heating, ventilation operation.Wisdom agricultural greenhouse long distance control system of the present utility model provides a kind of automatic Detection & Controling scheme of intelligent agricultural greenhouse, and gives concrete solution and communication mode, and control procedure is simple, practical.

Description

A kind of wisdom agricultural greenhouse long distance control system

Technical field

The utility model relates to Intelligent Measurement control technology field, is specifically related to a kind of wisdom agricultural greenhouse long distance control system.

Background technology

Along with growth in the living standard, the delivery quality quantitative requirement of market to vegetables is more and more higher, traditional artificial green house of vegetables way to manage, as manually watered, the planting patterns such as artificial draft can not meet the demand of market to vegetable gradually, particularly under large-scale environment of vegetable greenhouse, conventional management mode weakness is more outstanding.Adopting the mode of Based Intelligent Control to manage agricultural greenhouse is current trend, the Chinese utility model patent being CN203882169U as publication number discloses a kind of agricultural greenhouse long distance control system, this system comprises data transmission unit, agricultural equipment control module, transmission unit, agricultural equipment control module processor, remote communication module, system and data acquisition center, remote monitoring center fit applications, solve the device intelligence monitoring in agricultural greenhouse, change tillage method, reduce labour.But this system does not provide concrete solution, communication mode and control section.

Utility model content

In order to solve the problems of the technologies described above, the utility model provides a kind of wisdom agricultural greenhouse long distance control system, this system comprises the webserver, web remote browser, greenhouse-environment information acquisition network element, booth control module and control center's platform, system employing CC2530 is the zigbee communication module of core, realize booth air themperature, humidity, soil moisture gathers, the controls transfer of each opertaing device is completed by wifi equipment, and by gateway, the information collected is reached web remote browser, long-range PC can observe collected relevant humiture by browser, long-range watering can also be realized at PC end, heating, ventilation operation.

To achieve these goals, the utility model adopts following technical scheme.

A kind of wisdom agricultural greenhouse long distance control system, comprises the webserver, web remote browser, it is characterized in that: this system also comprises greenhouse-environment information acquisition network element, booth control module, control center's platform; Described greenhouse-environment information acquisition network element comprises the zigbee communication module device and wifi communication facilities with CC2530 chip, the zigbee communication module device with CC2530 chip gathers illumination, aerial temperature and humidity and soil humidity information, and wifi communication facilities connects booth control module; Information Monitoring is transferred to the webserver and transfers to web remote browser by the webserver by greenhouse-environment information acquisition network element carries out booth information monitoring, and web remote browser connection control central platform also passes through control center's platform courses booth control module.

Preferably, this system also comprises wifi camera.

In above-mentioned arbitrary technical scheme preferably, the built-in wifi communication module of described wifi camera, booth image information is also transferred to web remote server by the webserver by wifi camera interconnection network server.

In above-mentioned arbitrary technical scheme preferably, described wifi communication facilities has the embedded module of HF-A11x.

In above-mentioned arbitrary technical scheme preferably, described greenhouse-environment information acquisition network element also comprises detection sensing device.

In above-mentioned arbitrary technical scheme preferably, described detection sensing device comprises illumination pick-up unit, aerial temperature and humidity pick-up unit, soil humidity detector, and illumination, aerial temperature and humidity and soil moisture Detection Information transfer to the webserver by zigbee network.

In above-mentioned arbitrary technical scheme preferably, described aerial temperature and humidity pick-up unit comprises DHT22 Temperature Humidity Sensor, CC2530 chip one, STM8 single-chip microcomputer.

In above-mentioned arbitrary technical scheme preferably, described STM8 single-chip microcomputer is connected with CC2530 chip, DHT22 Temperature Humidity Sensor, the RF end of CC2530 chip sends to coordinator node and adds telegon network packet and add the network built by telegon, the data of collection are carried out A/D conversion through STM8 single-chip microcomputer and are sent to CC2530 chip by DHT22 Temperature Humidity Sensor, CC2530 chip is held by RF and is sent to telegon, completes the data acquisition of primary air temperature-humidity detecting device and transmission.

In above-mentioned arbitrary technical scheme preferably, described soil humidity detector comprises detector probe one, detector probe two, CC2530 chip two.

In above-mentioned arbitrary technical scheme preferably, described detector probe one, detector probe two are connected with CC2530 chip two, detector probe one, detector probe two are inserted in soil, electrical resistance soil moisture change between detector probe one, detector probe two and change and will change the change in voltage shared of resistance and input to the P0_3 port of CC2530 chip two, completes AD conversion by the internal register arranging CC2530 chip two and arranges.

In above-mentioned arbitrary technical scheme preferably, described booth control module comprises automatic heating device, automatic ventilation equipment, automatic irrigation device, PLC, and described PLC connects automatic heating device, automatic ventilation equipment, automatic irrigation device.

In above-mentioned arbitrary technical scheme preferably, wifi communication facilities connects automatic heating device, automatic ventilation equipment, automatic irrigation device each device control data is transferred to web remote browser by the webserver, and web remote browser realizes the Long-distance Control of booth temperature adjustment, ventilation, irrigation by control center's platform transmission of control signals to automatic heating device, automatic ventilation equipment, automatic irrigation device.

In above-mentioned arbitrary technical scheme preferably, described automatic irrigation device comprises automatic watering function circuit, described automatic watering function circuit comprises LM324N type operational amplifier, solenoid valve, probe I, probe I I, TIP41C type triode, and LM324N type operational amplifier is connected with probe I, probe I I, solenoid valve, TIP41C type triode.

Wisdom agricultural greenhouse long distance control system of the present utility model, comprise the webserver, web remote browser, greenhouse-environment information acquisition network element, booth control module and control center's platform, provide a kind of automatic Detection & Controling scheme of intelligent agricultural greenhouse.Wisdom agricultural greenhouse long distance control system of the present utility model, employing CC2530 is the zigbee communication module of core, realize air themperature, humidity, soil moisture gathers, the controls transfer of each opertaing device is completed by the wifi communication facilities with the embedded module of HF-A11x, and by gateway, the information collected is reached web remote browser, long-range PC can observe collected relevant humiture by browser, long-range watering can also be realized at PC end, heating, ventilation operation.Wisdom agricultural greenhouse long distance control system of the present utility model gives concrete solution and communication mode, and control procedure is simple, practical.

Accompanying drawing explanation

Fig. 1 is the system architecture schematic diagram of the preferred embodiment according to wisdom agricultural greenhouse long distance control system of the present utility model;

Fig. 2 is the system architecture diagram of the preferred embodiment according to wisdom agricultural greenhouse long distance control system of the present utility model;

Fig. 3 is the aerial temperature and humidity structure of the detecting device schematic diagram of the preferred embodiment according to wisdom agricultural greenhouse long distance control system of the present utility model;

Fig. 4 is the aerial temperature and humidity pick-up unit course of work process flow diagram of the preferred embodiment according to wisdom agricultural greenhouse long distance control system of the present utility model;

Fig. 5 is the soil humidity detector structural representation of the preferred embodiment according to wisdom agricultural greenhouse long distance control system of the present utility model;

Fig. 6 is the soil humidity detector course of work process flow diagram of the preferred embodiment according to wisdom agricultural greenhouse long distance control system of the present utility model;

Fig. 7 connects and wireless transmission principles schematic diagram according to the wifi camera of a preferred embodiment of wisdom agricultural greenhouse long distance control system of the present utility model;

Fig. 8 is the automatic watering function electrical block diagram of the preferred embodiment according to wisdom agricultural greenhouse long distance control system of the present utility model;

Fig. 9 is wifi communication facilities according to a preferred embodiment of wisdom agricultural greenhouse long distance control system of the present utility model and booth control module connection diagram;

Figure 10 is the wifi communication apparatus construction schematic diagram with the embedded module of HF-A11x of the preferred embodiment according to wisdom agricultural greenhouse long distance control system of the present utility model.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is elaborated, below describe only exemplarily and explain, any pro forma restriction is not done to the utility model.

Embodiment 1

As shown in Figure 1 to Figure 2, wisdom agricultural greenhouse long distance control system comprises the webserver, web remote browser, greenhouse-environment information acquisition network element, booth control module, control center's platform, wifi camera; Greenhouse-environment information acquisition network element comprises the zigbee communication module device and wifi communication facilities with CC2530 chip, the zigbee communication module device with CC2530 chip gathers illumination, aerial temperature and humidity and soil humidity information, and wifi communication facilities connects booth control module; The built-in wifi communication module of wifi camera, booth image information is also transferred to web remote server by the webserver by wifi camera interconnection network server; Information Monitoring is transferred to the webserver and transfers to web remote browser by the webserver by greenhouse-environment information acquisition network element carries out booth information monitoring, and web remote browser connection control central platform also passes through control center's platform courses booth control module.

Wifi communication facilities has the embedded module of HF-A11x; Greenhouse-environment information acquisition network element also comprises detection sensing device; Detect sensing device and comprise illumination pick-up unit, aerial temperature and humidity pick-up unit, soil humidity detector, illumination, aerial temperature and humidity and soil moisture Detection Information transfer to the webserver by zigbee network; Aerial temperature and humidity pick-up unit comprises DHT22 Temperature Humidity Sensor, CC2530 chip one, STM8 single-chip microcomputer; STM8 single-chip microcomputer is connected with CC2530 chip, DHT22 Temperature Humidity Sensor, the RF end of CC2530 chip sends to coordinator node and adds telegon network packet and add the network built by telegon, the data of collection are carried out A/D conversion through STM8 single-chip microcomputer and are sent to CC2530 chip by DHT22 Temperature Humidity Sensor, CC2530 chip is held by RF and is sent to telegon, completes the data acquisition of primary air temperature-humidity detecting device and transmission; Soil humidity detector comprises detector probe one, detector probe two, CC2530 chip two; Detector probe one, detector probe two are connected with CC2530 chip two, detector probe one, detector probe two are inserted in soil, electrical resistance soil moisture change between detector probe one, detector probe two and change and will the change in voltage shared of resistance be changed input to the P0_3 port of CC2530 chip two, completing AD conversion by the internal register arranging CC2530 chip two is arranged; Booth control module comprises automatic heating device, automatic ventilation equipment, automatic irrigation device, PLC, and described PLC connects automatic heating device, automatic ventilation equipment, automatic irrigation device.Wifi communication facilities connects automatic heating device, automatic ventilation equipment, automatic irrigation device each device control data is transferred to web remote browser by the webserver, and web remote browser realizes the Long-distance Control of booth temperature adjustment, ventilation, irrigation by control center's platform transmission of control signals to automatic heating device, automatic ventilation equipment, automatic irrigation device.Automatic irrigation device comprises automatic watering function circuit, described automatic watering function circuit comprises LM324N type operational amplifier, solenoid valve, probe I, probe I I, TIP41C type triode, and LM324N type operational amplifier is connected with probe I, probe I I, solenoid valve, TIP41C type triode.

Embodiment 2

As shown in Figure 1 to Figure 2, a kind of wisdom agricultural greenhouse long distance control system, system employing CC2530 is the zigbee communication module of core, realizes air themperature, humidity, soil moisture collection, the controls transfer of each opertaing device is completed by the wifi equipment of HF-A11x, and by gateway, the information collected is reached web server, long-range PC can observe collected relevant humiture by browser, long-range watering can also be realized at PC end, heating, ventilation operation.

System adopts ZigBee-network transmission to the collection of the information such as humiture, illumination, and the collection point of the information such as humiture, illumination is many, and ZigBee has the advantages such as low in energy consumption, strong interference immunity, networking capability are good, can meet the condition of this environment.The collection wifi of image makes a video recording, and the signal of wifi camera directly can transfer to wireless router, and user, by can remote browser, observes the image information in booth, and the data of browser display humiture.Simultaneously user can carry out the control assembly of Long-distance Control booth by the design button in click browser, realizes irrigating, temperature adjustment, the controls such as ventilation.All greenhouse-environment information unification reach server, and the scheme of employing is the unification that the gateway utilizing ZigBee-wifi to change realizes data message type.

As shown in Figure 3, the detection for aerial temperature and humidity adopts DHT22 Temperature Humidity Sensor, and Temperature Humidity Sensor node forms primarily of CC2530 chip, STM8 single-chip microcomputer and Temperature Humidity Sensor DHT22.First, held by the RF of CC2530 chip and add telegon network packet to coordinator node transmission, after adding the network built by telegon, the data (A/D conversion) after the process of STM8 single-chip microcomputer that Temperature Humidity Sensor will gather, be sent to CC2530 chip, CC2530 chip is held by RF and is sent to telegon.So far, once complete data acquisition and being sent completely.Wherein, Temperature Humidity Sensor model " DHT22 " is also referred to as AM2302, this humicap numeral humiture module is a humiture compound sensor exported containing oneself calibration digital signal, sensor comprises a condenser type sense and to wet element and a high precision measuring temperature element, and be connected with a high-performance 8 single-chip microcomputers, this node software flow process is concrete as shown in Figure 4.

As shown in Figure 5, the detection for soil moisture is changed, and is the detection to electric resistance of soil value, and when soil moisture increases, the resistance of soil reduces.Principle is as follows: probe 1, probe 2 are inserted in soil, and the P0_2 of CC2530 chip is input as the current potential of resistance R2, and this current potential is changeless; The current potential be input as between probe 1, probe 2 of P0_3, the i.e. current potential of soil between two resistance; When soil moisture change, electric resistance of soil between two probes changes, and the change in voltage shared of this part resistance, inputs to P0_3 port thereupon; By arranging CC2530 internal register, completing the setting of AD conversion, using the ADC of CC2530 chip internal to complete AD conversion.Workflow is concrete as shown in Figure 6.

Booth image information is also transferred to web remote server by the webserver by wifi camera interconnection network server, and the connection of wifi camera is divided into wired and radio connection, and its radio connection as shown in Figure 7.Wifi camera selects the camera of farsighted prestige bodyguard series, and this camera has following features: (1) adopts P2P (Peer to Peer) P-2-P technology, without the need to applying for domain name, just can realize remote monitoring by wireless network, real interconnection among all networks; (2) built-in Wi-Fi module, without the need to wiring, convenient connection, wireless standard IEEE 802.11b; (3) carry The Cloud Terrace, support that Long-distance Control rotates cruise (level 355 degree/vertical 90 degree) up and down; (4) automatic switchover diurnal pattern LED night vision illumination; (night vision coverage 5 meters) wide-angle lens angle about 60 °.As shown in Figure 7, wifi camera connects simple, and the built-in wifi module of camera, is connected in the LAN (Local Area Network) at wireless router place, be connected to internet by router, the IP address that remote computer can access camera by Internet-browser can reach remote monitoring object.

As shown in Figure 8, automatic irrigation device comprises automatic watering function circuit, described automatic watering function circuit comprises LM324N type operational amplifier, solenoid valve, probe I, probe I I, TIP41C type triode, and LM324N type operational amplifier is connected with probe I, probe I I, solenoid valve, TIP41C type triode.Automatic watering function circuit utilizes upper surface humidity, its Cleaning Principle: what operational amplifier pin 3 inputted is the voltage shared for resistance with soil between two probes, and what operational amplifier pin two inputted is the voltage that resistance R2 shares is 6V; When corresponding soils humidity reduces, resistance increases, and the voltage of two sound ends increases, and when voltage is greater than 6V, amplifier exports high level, makes triode TIP41C conducting, and solenoid valve S1 work is opened water valve and watered; Equally, when soil moisture increases, resistance reduces, and the voltage that corresponding two probes are shared reduces, and when voltage is lower than the voltage of R2, amplifier output low level, triode ends, and closed electromagnetic valve, stops watering, thus completes the object of automatic watering function.

Booth control module comprises automatic heating device, automatic ventilation equipment, automatic irrigation device, PLC, and described PLC connects automatic heating device, automatic ventilation equipment, automatic irrigation device.Information received by wifi module is sent to control section, control section is mainly the controller of PLC core, the connection of wifi communication and control parts as shown in Figure 9, wifi equipment uses HF-A11x flush bonding module, this module supports 802.11b/g/n wireless standard, support TCP/IP/UDP network protocol stack, UART/GPIO/ ethernet data communication interface etc., typical apply connects as shown in Figure 10.According to the connection layout of Wifi equipment application, will heat, ventilate, watering appliance is connected with wifi module, completes the signal wiring of each control module.

The above is only be described preferred implementation of the present utility model; not that scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that the common engineering technical personnel in this area make the technical solution of the utility model and improvement, all should fall in protection domain that claims of the present utility model determine.

Claims (10)

1. a wisdom agricultural greenhouse long distance control system, comprises the webserver, web remote browser, it is characterized in that: this system also comprises greenhouse-environment information acquisition network element, booth control module, control center's platform; Described greenhouse-environment information acquisition network element comprises the zigbee communication module device and wifi communication facilities with CC2530 chip, the zigbee communication module device with CC2530 chip gathers illumination, aerial temperature and humidity and soil humidity information, and wifi communication facilities connects booth control module; Information Monitoring is transferred to the webserver and transfers to web remote browser by the webserver by greenhouse-environment information acquisition network element carries out booth information monitoring, and web remote browser connection control central platform also passes through control center's platform courses booth control module.

2. wisdom agricultural greenhouse long distance control system as claimed in claim 1, is characterized in that: this system also comprises wifi camera.

3. wisdom agricultural greenhouse long distance control system as claimed in claim 2, it is characterized in that: the built-in wifi communication module of described wifi camera, booth image information is also transferred to web remote server by the webserver by wifi camera interconnection network server.

4. wisdom agricultural greenhouse long distance control system as claimed in claim 1, is characterized in that: described wifi communication facilities has the embedded module of HF-A11x.

5. wisdom agricultural greenhouse long distance control system as claimed in claim 1, is characterized in that: described greenhouse-environment information acquisition network element also comprises detection sensing device.

6. wisdom agricultural greenhouse long distance control system as claimed in claim 5, it is characterized in that: described detection sensing device comprises illumination pick-up unit, aerial temperature and humidity pick-up unit, soil humidity detector, illumination, aerial temperature and humidity and soil moisture Detection Information transfer to the webserver by zigbee network.

7. wisdom agricultural greenhouse long distance control system as claimed in claim 6, is characterized in that: described aerial temperature and humidity pick-up unit comprises DHT22 Temperature Humidity Sensor, CC2530 chip one, STM8 single-chip microcomputer.

8. wisdom agricultural greenhouse long distance control system as claimed in claim 7, it is characterized in that: described STM8 single-chip microcomputer is connected with CC2530 chip, DHT22 Temperature Humidity Sensor, the RF end of CC2530 chip sends to coordinator node and adds telegon network packet and add the network built by telegon, the data of collection are carried out A/D conversion through STM8 single-chip microcomputer and are sent to CC2530 chip by DHT22 Temperature Humidity Sensor, and CC2530 chip is held by RF and is sent to telegon.

9. wisdom agricultural greenhouse long distance control system as claimed in claim 6, is characterized in that: described soil humidity detector comprises detector probe one, detector probe two, CC2530 chip two.

10. wisdom agricultural greenhouse long distance control system as claimed in claim 9, it is characterized in that: described detector probe one, detector probe two are connected with CC2530 chip two, electrical resistance soil moisture change between detector probe one, detector probe two and change and will change the change in voltage shared of resistance and input to the P0_3 port of CC2530 chip two, completes AD conversion by the internal register arranging CC2530 chip two and arranges.