CN203929760U - The water quality parameter remote supervision system of cellular radio communication - Google Patents

Abstract

The utility model has disclosed a kind of water quality parameter remote supervision system of cellular radio communication, comprise the multiple information acquisition terminals that are cellular distribution, gateway, WEB server, database and monitoring client, information acquisition terminal sends to gateway by the multiple-quality water data of collection by ZIGBEE network; Gateway receives and water quality data is sent to WEB server by Internet Protocol; WEB server focuses on and analyzes the water quality data of each information acquisition terminal, obtains result data, and result data is saved to database; Monitoring client is by Internet Protocol and WEB server communication, the result data in real-time monitored WEB server.The utility model adopts honeycomb fashion acquisition terminal, gateway, the complementary system architecture of server tripartite to realize, and can realize simple and direct property and the stability of the links such as operation, data acquisition, data processing, web interface demonstration, client's monitoring of whole system.

Description

The water quality parameter remote supervision system of cellular radio communication

Technical field

The utility model relates to monitoring water environment field, especially relate to a kind of can be round-the-clock, comprehensive, the water quality parameter remote supervision system of the cellular radio communication of water quality parameter in real time on-line monitoring lake.

Background technology

Lake is the important carrier of surface water resources, it is the important factor that maintains ecosystem health, have and regulate river rising in Ningxia and flowing into central Shaanxi, rivers and creeks stream, development irrigation, industry and the water source of drinking are provided, multiply hydrobiont, link up shipping, improve region environment and develop the several functions such as mineral products, in supporting socio-economic development and maintaining ecologic environment balance, brought into play vital role.

Along with the quickening of socioeconomic development and industrialization, urbanization process, the mankind's activity makes lake just suffer severe contamination, it is bad that aquatic ecosystem is subject to skin in various degree, algal bloom, water transparency declines, hydrophyte is withered away gradually, and with serious pollution lake also there will be water body blackout or occurs wawter bloom, and temperature also can give out stench taste while rising.

For a long time, country pays much attention to emphasis lake water pollution control, a series of great administration projects such as TAIHU LAKE pollution control "zero-hour" operation and " Taihu Lake water pollution control and water body recovery technique and engineering demonstration " are in succession implemented, worsen, improve the aspects such as local water environment at containment lake water quality, obtain certain effect, in lake water quality parameter monitoring, monitoring machine is shaped with two kinds of routine monitoring, emergency advance warning monitorings, and the monitoring technology adopting has artificial sample and lab analysis, automatic water quality monitoring, satellite remote sensing, aquatic organism to monitor water quality etc.

Wherein, adopt the mode of Portable water quality monitor artificial sample, lab analysis, this mode cannot be carried out remote real time monitoring to water quality parameter, and can not reflect well the continuous dynamic change of water environment.

Adopt the automatic monitoring system being formed by Surveillance center and some monitoring sub-stations, can realize the remote transmission of automatic continuous monitoring and data, but need in advance cable laying and set up multiple monitoring sub-stations, the ecologic environment of destructible monitored area, and monitoring range is limited, system cost of investment is high.

Adopt satellite remote sensing technology to monitor, its monitoring accuracy need to improve, and is subject to the restriction of topography and geomorphology while measuring.

Adopt aquatic organism monitoring water quality technology, it can only reflect the variation of water quality, and cannot find the source of the objectionable impurities that causes change of water quality.

This shows, existing water quality monitoring means all exist some shortcomings, need us badly and design a set of have low cost of manufacture, laying is convenient, easy to use, reliability is high, automaticity is high wireless water quality parameter on-line monitoring system, to promote lake, river management level, safeguard lake, river healthy life, and ensure sustainable utilization of water resource.

Utility model content

The purpose of this utility model is to overcome the defect of prior art, a kind of water quality parameter remote supervision system of cellular radio communication is provided, employing is the information acquisition terminal of cellular distribution and the system architecture that remote server data focuses on, so that the water quality parameter in long-range waters is realized to round-the-clock, comprehensive, real-time on-line monitoring.

For achieving the above object, the utility model proposes following technical scheme: a kind of water quality parameter remote supervision system of cellular radio communication, comprise the multiple information acquisition terminals that are cellular distribution, gateway, WEB server, database and monitoring client, each described information acquisition terminal comprises multiple-quality water parameter sensors and ZIGBEE wireless module, described water quality parameter sensor is all connected with described ZIGBEE wireless module by the peripheral interface of described ZIGBEE wireless module

Described ZIGBEE wireless module obtains the water quality data that multiple described water parameter sensors gathers, and by ZIGBEE network, described water quality data is sent to described gateway;

Described gateway receives the described water quality data that described ZIGBEE wireless module transmits, and described water quality data is sent to described WEB server by Internet Protocol;

Described WEB server focuses on and analyzes the described water quality data of each described information acquisition terminal, obtains result data, and described result data is saved to described database;

Described monitoring client is by Internet Protocol and described WEB server communication, the described result data described in real-time monitored in WEB server.

Preferably, each described information acquisition terminal has a described gateway.

Preferably, between described water quality parameter sensor and described ZIGBEE wireless module, also signalization is inputted and conditioning module, and multiple described water quality parameter sensors access the peripheral interface of described ZIGBEE wireless module by described signal input and conditioning module.

Preferably, described ZIGBEE wireless module comprises ZIGBEE baseband processor and ZIGBEE radio frequency unit, and described ZIGBEE baseband processor is connected with conditioning module with described signal input, and described ZIGBEE radio frequency unit is connected with described ZIGBEE baseband processor.

Preferably, described WEB server has web displaying interface, and described web displaying interface comprises that observation interface graphically shows, parameter result shows and early warning information display interface.

Preferably, the multiple described water quality parameter sensor of each described information acquisition terminal is honeycomb fashion distribution.

Preferably, described water quality parameter sensor is turbidity, ammonia nitrogen, dissolved oxygen DO, pH value or hydraulic pressure sensor.

Preferably, described monitoring client is mobile phone or panel computer.

In the time that described WEB server analyzes water quality parameter and exceeds standard, described WEB server produces warning message, and the information of the monitoring client of having set according to its inside, and described warning message is sent on corresponding monitoring client.

Described WEB server sends to described warning message on corresponding monitoring client by the mode of note or GPRS data.

Compared with prior art, the beneficial effects of the utility model are:

1, the information acquisition terminal in the utility model is honeycomb fashion distribution, be equipped with WEB server simultaneously and carry out in real time focusing on of water quality data, the truth of whole water body environment can be more effectively embodied, and round-the-clock, comprehensive, real-time on-line monitoring can be realized to the water parameter in long-range waters.

2, the utility model whole system adopts honeycomb fashion acquisition terminal, gateway, the complementary system architecture of server tripartite to realize, and can realize simple and direct property and the stability of the links such as operation, data acquisition, data processing, web interface demonstration, client's monitoring of whole system.

3, the utlity model has low cost of manufacture, laying is convenient, easy to use, reliability is high, automaticity advantages of higher.

Brief description of the drawings

Fig. 1 is the work block diagram representation of the water quality parameter remote supervision system of the utility model cellular radio communication;

Fig. 2 is the structural representation of the utility model information acquisition terminal.

Embodiment

Below in conjunction with accompanying drawing of the present utility model, the technical scheme of the utility model embodiment is carried out to clear, complete description.

As shown in Figure 1, the water quality parameter remote supervision system of a kind of cellular radio communication that the utility model discloses, comprise multiple information acquisition terminals, gateway, WEB server, database and monitoring client, information acquisition terminal is the formant in system, can by turbidity, ammonia nitrogen, dissolved oxygen DO, pH value, etc. sensor gather the water quality parameter of measuring waters, then by ZIGBEE radio sensing network, the water quality parameter collecting is sent out.Multiple information acquisition terminals are honeycomb fashion and distribute in whole monitored waters, can realize the accurate detection to whole water area water-quality.

As shown in Figure 2, each information acquisition terminal comprises multiple-quality water parameter sensors, signal input and conditioning module, ZIGBEE baseband processor and ZIGBEE radio frequency unit, water quality parameter sensor can arrange multiple, for gathering the various supplemental characteristics of water quality, as the sensors such as turbidity, ammonia nitrogen, dissolved oxygen DO, pH value, hydraulic pressure can be set, the data such as the turbidity of the corresponding collection of difference water quality, ammonia nitrogen, dissolved oxygen DO, pH value, hydraulic pressure.

Multiple-quality water parameter sensors is also honeycomb fashion and distributes in waters, and each information acquisition terminal is equivalent to a honeycomb, and every kind of water quality parameter sensor in each information acquisition terminal is as an acquisition node in this honeycomb.And in each honeycomb, all there is a gateway.

As shown in Figure 2, ammonia nitrogen sensor, turbidity transducer, dissolved oxygen sensor, pH value sensor are all connected with conditioning module with signal input, the ammonia nitrogen of collection, turbidity, dissolved oxygen DO, pH value water quality data are inputed to signal input and conditioning module, the peripheral interface of signal input and conditioning module access ZIGBEE baseband processor, gives ZIGBEE baseband processor by the peripheral interface of ZIGBEE baseband processor by these water quality datas.Wherein, the peripheral interface of ZIGBEE baseband processor has the interfaces such as simulation, numeral, serial ports.

ZIGBEE baseband processor is for simply resolving and process these water quality datas, and water quality data after treatment is sent to ZIGBEE radio frequency unit, by ZIGBEE radio frequency unit, water quality data is sent in the Centroid (not shown) of corresponding MANET, then by ZIGBEE network, water quality data is transmitted to gateway by the Centroid of MANET.

Information acquisition terminal also can connect ball float control module, the depth of water detects other cellular constructions such as motor control unit, power supply unit, charhing unit, and wherein ball float control module is used for ensureing that water parameter sensors and power supply unit etc. will float on the surface; The depth of water detects motor control unit and carries out parameter measurement for the water that various water parameter sensors are placed into different depth; Power supply unit is for the power supply energy source of information acquisition terminal; Charhing unit is charged to rechargeable battery for the power supply that power supply unit is provided and gets on.The so both stability of guarantee information acquisition terminal operating voltage, also can make information acquisition terminal in night and overcast and rainy continuous firing.Certainly information acquisition terminal is not limited to connect these unit, according to actual needs, can affix other cellular construction.

Gateway is the data relay unit of whole system, the information acquisition terminal of being responsible for receiving remote passes the data of coming by ZIGBEE radio sensing network, and convert thereof into internet data, then send to long-range WEB server to carry out data processing and analysis the water quality data after conversion by the Internet.

Server in the utility model adopts WEB server mode, is responsible for data processing, analysis, the storage of all information acquisition terminals, the interface of Monitoring Data shows in real time.WEB server receives and in time the water quality data of each information acquisition terminal is focused on and analyzed, and obtains result data, and this result data is stored to database.

The utility model also arranges web displaying interface on WEB server, processes the result data that draws finally with the mode real-time update at WEB interface out.Wherein, web displaying interface comprises that observation interface graphically shows, parameter result shows and early warning information display interface etc.

When analyzing water quality parameter, WEB server exceeds standard need to report to the police time, WEB server can produce warning message, and according to the information (as phone number) of the monitoring client having set therein in advance, warning message is sent to (on corresponding person liable's mobile phone) on corresponding monitoring client, be that WEB server can be directly by the form of note or GPRS data, the warning message that in real time the relevant water parameter at honeycomb scene exceeded standard is notified corresponding responsible official, so that related personnel can understand or process the involved relevant matters of alarm content in time, greatly improve the efficiency to water quality monitoring and processing.

Monitoring client is for detecting the water parameter of the long-range specific bodies of water efficiently in real time.Monitoring client can be the mobile device such as mobile phone, panel computer, the monitoring client that engineering technical personnel or monitoring personnel surf the Internet by connection is opened web browser, by input the IP address of corresponding WEB server at browser page address field, just can open the web displaying interface of WEB server, water parameter result data in the different waters of real-time monitored intuitively, and water quality parameter and the relevant running status of each acquisition node in each honeycomb.

Technology contents of the present utility model and technical characterictic have disclosed as above; but those of ordinary skill in the art still may be based on teaching of the present utility model and announcements and are done all replacement and modifications that does not deviate from the utility model spirit; therefore; the utility model protection domain should be not limited to the content that embodiment discloses; and should comprise various do not deviate from replacement of the present utility model and modifications, and contained by present patent application claim.

Claims (8)

1. the water quality parameter remote supervision system of a cellular radio communication, it is characterized in that, comprise the multiple information acquisition terminals that are cellular distribution, gateway, WEB server, database and monitoring client, each described information acquisition terminal comprises multiple-quality water parameter sensors and ZIGBEE wireless module, described water quality parameter sensor is all connected with described ZIGBEE wireless module by the peripheral interface of described ZIGBEE wireless module

Described ZIGBEE wireless module communicates by ZIGBEE network and described gateway;

Described gateway communicates by Internet Protocol and described WEB server;

Described WEB server is connected with described database;

Described monitoring client is by Internet Protocol and described WEB server communication.

2. the water quality parameter remote supervision system of cellular radio communication according to claim 1, is characterized in that, each described information acquisition terminal has a described gateway.

3. the water quality parameter remote supervision system of cellular radio communication according to claim 1, it is characterized in that, between described water quality parameter sensor and described ZIGBEE wireless module, also signalization is inputted and conditioning module, and multiple described water quality parameter sensors access the peripheral interface of described ZIGBEE wireless module by described signal input and conditioning module.

4. the water quality parameter remote supervision system of cellular radio communication according to claim 3, it is characterized in that, described ZIGBEE wireless module comprises ZIGBEE baseband processor and ZIGBEE radio frequency unit, described ZIGBEE baseband processor is connected with conditioning module with described signal input, and described ZIGBEE radio frequency unit is connected with described ZIGBEE baseband processor.

5. the water quality parameter remote supervision system of cellular radio communication according to claim 1, it is characterized in that, described WEB server has web displaying interface, and described web displaying interface comprises that observation interface graphically shows, parameter result shows and early warning information display interface.

6. the water quality parameter remote supervision system of cellular radio communication according to claim 1, is characterized in that, the multiple described water quality parameter sensor of each described information acquisition terminal is honeycomb fashion and distributes.

7. the water quality parameter remote supervision system of cellular radio communication according to claim 1, is characterized in that, described water quality parameter sensor is turbidity, ammonia nitrogen, dissolved oxygen DO, pH value or hydraulic pressure sensor.

8. the water quality parameter remote supervision system of cellular radio communication according to claim 1, is characterized in that, described monitoring client is mobile phone or panel computer.