CN206339554U - Water conservancy lake remote sensing comprehensive monitoring management system - Google Patents

Abstract

The utility model provides water conservancy lake remote sensing comprehensive monitoring management system, including monitoring node, the webserver, GPRS receives transmitter unit and host computer, monitoring node connects the webserver by wireless network, the webserver connects GPRS by GPRS network and receives transmitter unit, GPRS receives transmitter unit connection host computer, operator monitors host computer, monitoring node includes display unit, sensor unit, control unit, wireless transmit/receive units and power subsystem, display unit, sensor unit, wireless transmit/receive units and power subsystem connect control unit respectively, power subsystem connects wireless transmit/receive units, the utility model is reasonable in design, it is easy to use, monitor parameter comprehensive, the various situations in water conservancy lake can be found in time, so as to facilitate relevant departments to make arrangement, prevent the generation of disaster or water pollution accident.

Description

Water conservancy lake remote sensing comprehensive monitoring management system

Technical field

The utility model is specifically related to water conservancy lake remote sensing comprehensive monitoring management system.

Background technology

With the high speed development of national economy, effect of the hydraulic engineering played in national economy is increasing.It is how complete Face is efficiently monitored to water body, in time find waters multiclass parameter, so that relevant departments make arrangement, prevent disaster or The generation of water pollution accident, it has also become the significant problem that Sustainable Socioeconomic Development must be solved.Current water conservancy lake Monitoring system, with the problem of parameter is few is monitored, so that the inconvenient secret for finding water conservancy lake in time.

Utility model content

The purpose of this utility model is to be to solve a kind of above-mentioned not enough managed there is provided water conservancy lake remote sensing comprehensive monitoring System.

The purpose of this utility model is achieved through the following technical solutions：

Water conservancy lake remote sensing comprehensive monitoring management system, including monitoring node, the webserver, GPRS receive transmitter unit And host computer, monitoring node by wireless network connect the webserver, the webserver by GPRS network connect GPRS connect Receive transmitter unit, GPRS receive transmitter unit connection host computer, operator monitoring host computer, monitoring node include display unit, Sensor unit, control unit, wireless transmit/receive units and power subsystem, display unit, sensor unit, wireless transmit/receive units and Power subsystem connects control unit, power subsystem connection wireless transmit/receive units respectively.

Monitoring node includes coordinator node, router node and terminal node.

Sensor unit includes dissolved oxygen quantity sensor, pH value sensor and temperature sensor.

Control unit includes ram memory cell, USART units, I/O mouthfuls and processor, ram memory cell, USART units Processor is connected respectively with I/O mouthfuls.

Wireless transmit/receive units include CC2530 wireless transceivers.

The utility model has following beneficial effect：

The utility model is reasonable in design, easy to use, and monitoring parameter comprehensively, the various of water conservancy lake can be found in time Situation, so as to facilitate relevant departments to make arrangement, prevents the generation of disaster or water pollution accident.

Brief description of the drawings

Fig. 1 is overall structure diagram of the present utility model；

Fig. 2 is node structure figure of the present utility model；

Fig. 3 is temperature collection circuit figure of the present utility model；

Fig. 4 is pH value Acquisition Circuit figure of the present utility model.

Embodiment

The utility model is further described below in conjunction with the accompanying drawings：

As shown in figure 1, water conservancy lake remote sensing comprehensive monitoring management system, including monitoring node 1, the webserver 2, GPRS Transmitter unit 4 and host computer 5 are received, monitoring node 1 connects the webserver 2 by wireless network, and the webserver 2 passes through The connection of GPRS network 3 GPRS receives transmitter unit 4, and GPRS receives the connection host computer 5 of transmitter unit 4, the monitoring host computer of operator 6 5, monitoring node 1 includes display unit 10, sensor unit 11, control unit 12, wireless transmit/receive units 13 and power subsystem 14, Display unit 10, sensor unit 11, wireless transmit/receive units 13 and power subsystem 14 connect control unit 12, power subsystem respectively 14 connection wireless transmit/receive units 13.

Monitoring node 1 includes coordinator node 6, router node 7 and terminal node 8.

Sensor unit 11 includes dissolved oxygen quantity sensor 15, pH value sensor 16 and temperature sensor 17.

Control unit 12 includes ram memory cell 18, USART units 19, I/O mouths 20 and processor 21, ram memory cell 18th, USART units 19 and I/O mouths 20 connect processor 21 respectively.

Wireless transmit/receive units 13 include CC2530 wireless transceivers 22.

Operation principle：Whole monitored area is covered in as far as possible few sensor node, in order to ensure the letter collected Breath is representative, ambient influnence when delivering sensor node around the consideration to be suited measures to local conditions.Part of data acquisition is by end End node is completed, the water quality characteristic such as main temperature, PH values and electrical conductivity being responsible in collection water, and coordinator node is mainly complete The data converged in pairs are handled and issued acquisition.Multiple wireless sensor networks in monitored area

Information, by information taken to gateway, passes through the wireless-transmission networks such as GPRS afterwards by respective coordinator node Information needed is sent to PC terminals in real time so that user supervises water quality information.

Single-chip computer control system is the pith of whole node, as CPU, his major function be into The storage and parsing of row data, command interaction is carried out with other modules；Can according to the actual requirements at any time by sensing system Collecting us and need the physical signalling of monitoring everywhere, and pin is gathered by the AD of single-chip microcomputer be imparted to the data of collection Single-chip microcomputer is handled；Single-chip microcomputer sends the data to radio receiving transmitting module by the form of RS232 serial ports and then transmitted afterwards To master system, wireless transceiver system is based on Zigbee protocol, and major function is to complete the radio communication between node；Show mould Block can show the important informations such as current state；Power-supply system is mainly that whole node system provides electric power support.

Temperature collection circuit：The measuring bridge constituted using R1, R2 and VR1 and PT100, when PT100 and VR1 resistance When different, low pressure difference signal can be exported, the analog signal that this signal is needed after amplifier LM324 amplifications is defeated by this Go out to be connected to the 4.096v provided inside the converter that 8051 kernels that CC2530 carries are carried, reference voltage selection single-chip microcomputer Reference voltage, the data signal so obtained according to measurement can just read current temperature value.

Claims (5)

1. water conservancy lake remote sensing comprehensive monitoring management system, including monitoring node, the webserver, GPRS receive transmitter unit and Host computer, it is characterised in that：Monitoring node connects the webserver by wireless network, and the webserver is connected by GPRS network Meet GPRS and receive transmitter unit, GPRS receives transmitter unit connection host computer, and operator monitors host computer, and monitoring node includes aobvious Show unit, sensor unit, control unit, wireless transmit/receive units and power subsystem, display unit, sensor unit, wireless receipts Bill member and power subsystem connect control unit, power subsystem connection wireless transmit/receive units respectively.

2. remote sensing comprehensive monitoring management system in water conservancy lake according to claim 1, it is characterised in that：Described monitoring section Point includes coordinator node, router node and terminal node.

3. remote sensing comprehensive monitoring management system in water conservancy lake according to claim 1, it is characterised in that：Described sensor Unit includes dissolved oxygen quantity sensor, pH value sensor and temperature sensor.

4. remote sensing comprehensive monitoring management system in water conservancy lake according to claim 1, it is characterised in that：Described control list Member includes ram memory cell, USART units, I/O mouthfuls and processor, and ram memory cell, USART units and I/O mouthfuls connect respectively Connect processor.

5. remote sensing comprehensive monitoring management system in water conservancy lake according to claim 1, it is characterised in that：Described wireless receipts Bill member includes CC2530 wireless transceivers.