CN208258658U - A kind of intelligence irrigated area monitoring system - Google Patents

Abstract

The utility model patent discloses a kind of intelligent irrigated area monitoring system, it is characterised in that including photovoltaic battery panel, photovoltaic charge controller, battery, telemetering terminal, server, display screen, control cabinet, gate, monitor camera, sensor module；The photovoltaic battery panel is connect by cable with photovoltaic charge controller, the photovoltaic charge controller is connect by cable with battery, the battery, sensor module, monitor camera and control cabinet pass through cable connection with telemetering terminal respectively, the telemetering terminal carries out data interaction by GPRS network with server, the server is connect by cable with display screen, and control cabinet is connect by cable with gate；The utility model can be applied to various irrigated area intelligent constructions, improves the intelligence that irrigated area is monitored and controlled, reasonable distribution and scheduling water resource, improves water utilization rate.

Description

A kind of intelligence irrigated area monitoring system

Technical field

The utility model relates to a kind of intelligent irrigated area monitoring systems, the long-range prison suitable for irrigated area regimen and meteorological data It surveys.

Background technique

China is large agricultural country, and agricultural water accounts for the 73% of gross amount of water resources, and Large Or Medium Type Irrigation Areas accounts for national effective irrigation area 44.5%.Irrigation Project Design in China's water resource waste than more serious, agricultural irrigation water utilization rate only 40% or so, not as good as flourishing The half level of country.Developing Water-saving Agriculture improves the utilization rate of water resource, can not only alleviate showing for China's water scarcity Shape, and continued use in water resources and agricultural sustainable development can be promoted.

The system communication of irrigated area monitoring at present mostly uses greatly wired mode, and wiring is cumbersome, and expansion capability is poor, installation maintenance cost Height, the damage of long-term work communication cable or the bad reliability decrease that will lead to data transmission of wiring circuit contact；Monitoring parameters type It is single；Technical application falls behind relatively, and intelligence degree is not high.These all will lead to monitoring system data acquisition accuracy it is not high, It cannot rationally utilize and scheduling water resource.

Summary of the invention

The purpose of this utility model is, technical level backwardness single for existing irrigated area monitoring system monitoring parameters, intelligence The not high situation of change degree proposes a kind of intelligent irrigated area monitoring system, for improving the intelligence of irrigated area monitoring system.

In order to achieve the above objectives, the utility model adopts the following technical solutions: a kind of intelligence irrigated area monitoring system, packet Include: photovoltaic battery panel, photovoltaic charge controller, battery, telemetering terminal, sensor module, monitoring video camera, control cabinet, Gate, server, display screen；The photovoltaic battery panel is connect with photovoltaic charge controller；The photovoltaic charge controller and storage Battery connection；The battery is connect with telemetering terminal；The sensor module and monitoring camera pass through respectively cable with Telemetering terminal connection；The telemetering terminal carries out data interaction by GPRS network and server, passes through cable and control Cabinet connection；The control cabinet is connect with gate；The server is connect by cable with display screen.

Preferably, the telemetering terminal includes: lifting die block, STM32 microprocessor, GPRS module, RS485 mould Block；The lifting die block and battery are by cable connection, for electricity needed for providing STM32 microprocessor and GPRS module Source；The GPRS module selects SIM800C chip to connect with STM32 microprocessor with signal wire, is used for transmission STM32 micro process The field data and pictorial information of device acquisition and the signal for receiving server regulating gate；The RS485 module signal wire It is connect with STM32 microprocessor, for receiving the conversion of signal.

Preferably, the sensor module includes: liquid level sensor, flow sensor, precipitation rain fall sensor, temperature and humidity sensing Device；Liquid level sensor, flow sensor and Temperature Humidity Sensor pass through cable connection, precipitation rain fall sensor with RS485 module respectively It is connect by cable with STM32 microprocessor.

Compared with prior art, the utility model has the advantages that: system solves remote districts power supply using solar powered Inconvenient situation；Liquid level sensor can in real time acquisition channel water level, precipitation rain fall sensor and Temperature Humidity Sensor can be adopted in real time Collect irrigated area meteorological data, the metering and observation of irrigated area important parameter are meeting crops water premise convenient for rationally drawing water distribution quantity Under, it carries out and saves water, improve the utilization rate of water resource；Monitor camera can capture the case where channel water surface, convenient for observation canal The emergency case of the road water surface ensures water safety；Telemetering terminal can be by receiving server instruction, the aperture of regulating gate, By the metering of flow sensor, strict control discharges water, reasonable distribution water resource.

Detailed description of the invention

Fig. 1 is a kind of intelligent irrigated area monitoring system general structure schematic diagram of the utility model.

Fig. 2 is telemetering terminal structural schematic diagram.

Fig. 3 is sensor module structure schematic diagram.

Label title in Fig. 1: (1) photovoltaic battery panel, (2) photovoltaic charge controller, (3) battery, (4) telemetry terminal system Machine, (5) server, (6) display screen, (7) control cabinet, (8) gate, (9) monitor camera, (10) sensor module.

Label title in Fig. 2: (4-1) goes up and down die block, (4-2) STM32 microprocessor, (4-3) GPRS module, (4-4) RS485 module.

Label title in Fig. 3: (10-1) liquid level sensor, (10-2) flow sensor, (10-3) Temperature Humidity Sensor, (10-4) precipitation rain fall sensor.

Specific embodiment

It is described in further detail below in conjunction with shown in attached drawing.

A kind of embodiment of intelligent irrigated area TT&C system of the utility model refering to fig. 1, comprising: photovoltaic battery panel (1), photovoltaic Charge controller (2), battery (3), telemetering terminal (4), server (5), display screen (6), control cabinet (7), gate (8), Monitor camera (9), sensor module (10)；Wherein, battery (3), control cabinet (7), monitor camera (9) and sensor die Block (10) passes through cable connection with telemetering terminal (4) respectively；The photovoltaic battery panel (1) and photovoltaic charge controller (2) are even It connects；The photovoltaic charge controller (2) connect (3) with battery；The telemetering terminal (4) passes through mobile network and server (5) data interaction is carried out；The server (5) is connect by cable with display screen (6)；The control cabinet (7) and gate (8) are even It connects.

It is telemetering terminal (4) structure refering to Fig. 2, comprising: lifting die block (4-1), STM32 microprocessor (4-2), GPRS module (4-3), RS485 module (4-4).The lifting die block (4-1) is connect by cable with battery (3), is used for Power supply needed for STM32 microprocessor (4-2) and GPRS module (4-3) are provided；The GPRS module (4-3) by signal wire with STM32 microprocessor (4-2) connection；The RS485 module (4-4) is connect by signal wire with STM32 microprocessor (4-2).

It is sensor module (10) structure refering to Fig. 3, comprising: liquid level sensor (10-1), flow sensor (10-2), temperature Humidity sensor (10-3), precipitation rain fall sensor (10-4).The liquid level sensor (10-1), flow sensor (10-2) and warm and humid Degree sensor (10-3) is connect with the RS485 module (4-4) in telemetering terminal (4) respectively by cable；The rainfall sensing Device (10-4) cable is connect with STM32 microprocessor (4-2).

Photovoltaic battery panel (1), photovoltaic charge controller (2) and battery (3) are installed on irrigated area scene front end, photovoltaic cell Plate (1) absorbs solar energy, converts the solar into electric energy, by photovoltaic charge controller (2) control battery (3) charging, stores After battery (3) is fully charged, photovoltaic charge controller (2) stops working, and photovoltaic battery panel (1) continues energy storage, and battery (3) is used Power supply needed for lifting die block (4-1) in cable connection telemetering terminal (4) provides for telemetering terminal (4) internal element； Liquid level sensor (10-1) is installed on irrigated area scene channel front end, can acquisition channel water level in real time, Temperature Humidity Sensor (10-3) Be installed on irrigated area scene front end with precipitation rain fall sensor (10-4), can collection site meteorological data in real time, to water level and meteorological data It is observed and measures, draw the utilization rate for improving water resource with water source convenient for rationally controlling；Monitor camera (9) is installed on filling It is convenient for the case where observing the channel water surface for capturing the picture of the channel water surface, guarantees water safety in area scene front end；Liquid level passes Sensor (10-1), flow sensor (10-2) and Temperature Humidity Sensor (10-3) pass through connection RS485 module (4-4) and STM32 Microprocessor (4-2) is communicated, and the micro- place cable connection STM32 is directly used in precipitation rain fall sensor (10-4) and monitoring camera (9) Reason port device (4-2) is communicated, the irrigated area field data information and pictorial information of STM32 microprocessor (4-2) control acquisition And be sent to server (5) by GPRS module (4-3), data information and pictorial information pass through server (5) transmission display screen (6) on, so that staff checks；Server (5) and display screen (6) are installed on central control room；Staff passes through service Device (5) is to can issue control gate signal after the analysis and processing of data, by GPRS module (4-3) by control gate signal It is transmitted to STM32 microprocessor (4-2), STM32 microprocessor (4-2) drive control cabinet (7) movement, control cabinet (7) controls lock Door (8) aperture；Flow sensor (10-2) is installed on gate front end, is measured by flow sensor (10-2), and strict control is put Water, rational management water resource improve irrigated area monitoring intelligent.

Claims (2)

1. a kind of intelligence irrigated area monitoring system, it is characterised in that including photovoltaic battery panel (1), photovoltaic charge controller (2), electric power storage Pond (3), telemetering terminal (4), server (5), display screen (6), control cabinet (7), gate (8), monitor camera (9), sensing Device module (10)；The photovoltaic battery panel (1) connect with photovoltaic charge controller (2)；The photovoltaic charge controller (2) and storage Battery (3) connection；The battery (3) connect with telemetering terminal (4)；The sensor module (10) and monitor camera (9) it is connected respectively by cable with telemetering terminal (4)；The telemetering terminal (4) mode and server by wireless communication (5) data interaction is carried out, is connect by cable with control cabinet (7)；The control cabinet (7) connect with gate (8)；The server (5) it is connected by cable with display screen (6).

2. intelligence irrigated area according to claim 1 monitoring system, it is characterised in that: the telemetering terminal (4) includes rising Voltage reduction module (4-1), STM32 microprocessor (4-2), GPRS module (4-3), RS485 module (4-4)；The lifting die block (4-1) and battery (3) passes through cable connection, for electricity needed for providing STM32 microprocessor (4-2) and GPRS module (4-3) Source；The GPRS module (4-3) selects SIM800C chip to connect with STM32 microprocessor (4-2) with communication wire, for passing The field data and pictorial information of defeated STM32 microprocessor (4-2) acquisition and the instruction for receiving server regulating gate；It is described RS485 module (4-4) signal wire is connect with STM32 microprocessor (4-2), for receiving the conversion of signal.