CN202748370U - Automatic sampling and analysis system for water - Google Patents

Abstract

The utility model is suitable for the technical field of water monitoring equipment, and provides an automatic sampling and analysis system for water. A water analyzing device is used for analyzing water samples sampled by a water sampling device, and an analysis result showing device is used for showing the analysis result of the water analyzing device. A terminal control device has sampling control, water distribution control, washing control, GPS (Global Position System) data sampling, water quality monitoring data collection and data transmission control functions. A rapid and convenient measurement technology and a monitoring system can fully grasp cyanobacterial water in time to provide timely data and information for all levels of governments and research institutions. The water analyzing device adopts a spectrum analysis method which does not need a chemical reagent and measures multiple components at the same time to monitor water quality parameters so as to provide fast visual data and reports for the early warning of water environment and the government policy. Thus, the ability and the level of early warning and monitoring for cyanobacterial are increased, the level and the distribution of nitrogen and phosphorus pollution in water can be comprehensively known, and the automatic sampling and analysis system for water has a certain scientific significance and an application value.

Description

A kind of system that water body is carried out automatic sampling analysis

Technical field

The utility model belongs to the aquatic monitoring equipment technical field, relates in particular to a kind of system that water body is carried out automatic sampling analysis.

Background technology

The Taihu Lake Blue-green Algae Fast Growth had brought tremendous influence to politics, economy, the people's livelihood of Taihu Lake basin in 2007, country has dropped into huge human and material resources, financial resources for the Taihu Lake pollution control, and the so far monitoring to the Taihu Lake blue-green algae never was interrupted from 2007 in environmental administrations at different levels.

From 2007 so far, Taihu Lake blue-green algae situation is tending towards relaxing year by year, but generally speaking still allows of no optimist, and Taihu Lake blue-green algae early warning is still the most important thing of efforts at environmental protection.

The nutrition content such as Water, phosphorus is too high, causes body eutrophication, is the immediate cause that causes the Taihu Lake blue algae bloom.The content of therefore monitoring Taihu Lake Water, phosphorus and chlorophyll a is the important parameter that prediction blue-green algae and blue-green alga bloom produce.

Traditional monitoring means human, financial, and material resources consumes huge, and sampling, analytical cycle are long, are difficult to provide the same day monitoring result.Take Suzhou City's environmental monitoring central station as example, follow, go on board, sample, return, 5～6 hours consuming time of sampling element, sample was sent to lab analysis 2～3 hours, then data gather, analysis-by-synthesis, be difficult to provide Surveillance the same day.

The utility model content

The purpose of this utility model is to provide a kind of system that water body is carried out automatic sampling analysis, and the monitoring means human, financial, and material resources that being intended to solve prior art provides consumes huge, and sampling, analytical cycle are long, is difficult to provide the same day problem of monitoring result.

The utility model is achieved in that a kind of system that water body is carried out automatic sampling analysis, and this system comprises: water body sampling device, water analysis device, analysis result display device, terminal control module, Surveillance center;

Described water body sampling device is connected with the water analysis device, described water analysis device is connected with the analysis result display device, described water body sampling device, water analysis device and analysis result display device are connected with described terminal control module, and described terminal control module communicates by wireless network and described Surveillance center.

Further, described water body sampling device comprises: suction inlet filter screen, intake pipe, fastening holding tube, fixed head, wired hose, self-priming pump;

Described suction inlet filter screen is installed in the water inlet port of described intake pipe, is set with described fastening holding tube on the described intake pipe, and described fastening holding tube is fixed on the described fixed head, and described fixed head is installed on the hull;

The water outlet port of described intake pipe is connected with the water inlet port of described self-priming pump by described wired hose, and described terminal control module is connected with described self-priming pump.

Further, described water analysis device comprises: infrared spectrometer, optical fiber, probe, stopple coupon;

Described infrared spectrometer is connected with described probe by optical fiber, and described probe is installed on the described stopple coupon;

The water inlet port of described stopple coupon is connected with the water outlet port of described self-priming pump, and the water outlet port of described stopple coupon is connected with drainpipe, and described infrared spectrometer is connected with described terminal control module.

Further, described stopple coupon comprises: the first retaining valve, the second retaining valve, sample chamber, the first hand valve, the second hand valve;

Described sample chamber is arranged on the middle part of described stopple coupon, and the top of described sample chamber is followed successively by described the first hand valve and the first retaining valve, and the bottom of described sample chamber is followed successively by described the second hand valve and the second retaining valve;

Probe in the described water analysis device is installed in the outside of described sample chamber.

Further, described analysis result display device comprises: microprocessor, GIS module, GPS module;

Infrared spectrometer in the described water analysis device is connected with described microprocessor, and described GIS module and GPS module are connected with described microprocessor, and described microprocessor, GIS module and GPS module are connected with described terminal control module.

Further, described GPS module adopts the boat-carrying receiver to obtain the geographic coordinate information of sensing point, then sends the geographic coordinate information of sensing point to microprocessor in the mode of serial communication.

The system that water body is carried out automatic sampling analysis that the utility model provides, the water sample that the water analysis device is taked water body sampling device is analyzed, the analysis result display device shows the result of water analysis device analysis, the terminal control module has controlling of sampling, water distribution control, cleaning control, and gps data collection, water monitoring data gathers and the Data Transmission Controlling function, Surveillance center is the command centre of the automatic sampling analysis system of whole water body, be used for receiving, show, analyze the water quality parameter of each monitoring point, and by the work of wireless network management terminal control module, timing acquiring monitoring terminal data, set up the water quality data storehouse, carry out cartography take ARC GIS Geographic Information System as platform, rapidly, easy determination techniques and monitoring system, can be timely, grasp all sidedly the blue-green algae regimen, be governments at all levels, research institution provides timely data and information, the water analysis device adopts rapidly, easy, need not chemical reagent, the spectroscopic analysis methods monitoring water quality parameter of simultaneous determination of multiponents characteristics, data and the report of quick image are provided for water environment early warning and government decision, ability and level to the blue-green algae early warning and monitoring have been improved, can fully understand level and distribution that Water phosphorus pollutes, solved existing monitoring means people, wealth, thing consumes huge, and sampling, analytical cycle is long, be difficult to provide the same day problem of monitoring result, have certain scientific meaning and using value.

Description of drawings

Fig. 1 be the utility model embodiment provide water body is carried out the structured flowchart of the system of automatic sampling analysis;

Fig. 2 is the structured flowchart of the water analysis device that provides of the utility model embodiment;

Fig. 3 is the scheme of installation of intake pipe on fixed head that the utility model embodiment provides;

Fig. 4 is the scheme of installation of intake pipe on hull that the utility model embodiment provides;

Fig. 5 be the utility model embodiment provide water body is carried out the structural representation of the system of automatic sampling analysis.

Among the figure: 11, water body sampling device; 111, suction inlet filter screen; 112, intake pipe; 113, fastening holding tube; 114, fixed head; 115, wired hose; 116, self-priming pump; 12, water analysis device; 121, infrared spectrometer; 122, optical fiber; 123, probe; 124, stopple coupon; 1241, the first retaining valve; 1242, the second retaining valve; 1243, sample chamber; 1244, the first hand valve; 1245, the second hand valve; 13, analysis result display device; 131, microprocessor; 132, GIS module; 133, GPS module; 14, terminal control module; 15, Surveillance center; 16, hull; 17, drainpipe.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explaining the utility model, and be not used in restriction the utility model.

What Fig. 1 showed that the utility model embodiment provides carries out the structure of the system of automatic sampling analysis to water body.For convenience of explanation, only show the part relevant with the utility model embodiment.

This system comprises: water body sampling device 11, water analysis device 12, analysis result display device 13, terminal control module 14, Surveillance center 15;

Water body sampling device 11 is connected with water analysis device 12, water analysis device 12 is connected with analysis result display device 13, water body sampling device 11, water analysis device 12 and analysis result display device 13 are connected with terminal control module 14, and terminal control module 14 communicates by wireless network and Surveillance center 15.

As shown in Figure 2, in the utility model embodiment, water analysis device 12 comprises: infrared spectrometer 121, optical fiber 122, probe 123, stopple coupon 124;

Infrared spectrometer 121 is connected with probe 123 by optical fiber 122, and probe 123 is installed on the stopple coupon 124;

The water inlet port of stopple coupon 124 is connected with the water outlet port of self-priming pump 116, and the water outlet port of stopple coupon 124 is connected with drainpipe 17, and infrared spectrometer 121 is connected with terminal control module 14.

Such as Fig. 3, Fig. 4 and shown in Figure 5, in the utility model embodiment, water body sampling device 11 comprises: suction inlet filter screen 111, intake pipe 112, fastening holding tube 113, fixed head 114, wired hose 115, self-priming pump 116;

Suction inlet filter screen 111 is installed in the water inlet port of intake pipe 112, is set with fastening holding tube 113 on the intake pipe 112, and fastening holding tube 113 is fixed on the fixed head 114, and fixed head 114 is installed on the hull 16;

The water outlet port of intake pipe 112 is connected with the water inlet port of self-priming pump 116 by wired hose 115, and terminal control module 14 is connected with self-priming pump 116.

In the utility model embodiment, stopple coupon 124 comprises: the first retaining valve 1241, the second retaining valve 1242, sample chamber 1243, the first hand valve 1244, the second hand valve 1245;

Sample chamber 1243 is arranged on the middle part of stopple coupon 124, and the top of sample chamber 1243 is followed successively by the first hand valve 1244 and the first retaining valve 1241, and the bottom of sample chamber 1243 is followed successively by the second hand valve 1245 and the second retaining valve 1242;

Probe 123 in the water analysis device 12 is installed in the outside of sample chamber 1243.

In the utility model embodiment, analysis result display device 13 comprises: microprocessor 131, GIS module 132, GPS module 133;

Infrared spectrometer 121 in the water analysis device 12 is connected with microprocessor 131, and GIS module 132 and GPS module 133 are connected with microprocessor 131, and microprocessor 131, GIS module 132 and GPS module 133 are connected with terminal control module 14.

In the utility model embodiment, GPS module 133 adopts the boat-carrying receivers to obtain the geographic coordinate information of sensing point, then sends the geographic coordinate information of sensing point to microprocessor 131 in the mode of serial communication.

Below in conjunction with drawings and the specific embodiments application principle of the present utility model is further described.

As shown in Figure 1, GPS module 133 adopts the boat-carrying receiver to obtain the geographic coordinate information of sensing point, then, send the geographic coordinate of sensing point to microprocessor 131 in the mode of serial communication, adopt 131 pairs of data that receive of microprocessor to process, satisfy data storages and the requirement of processing, and synchronously the water quality data of sampling point be presented on the map vector online, promptly and accurately provide decision-making foundation to relevant departments.

Terminal control module 14 is responsible for finishing controlling of sampling, water distribution control, the cleaning control of monitoring means, and gps data collection, water monitoring data collection and Data Transmission Controlling function.

GPS module 133 and microprocessor 131 real-time Communication for Power, microprocessor 131 is connected with the boat-carrying receiver of GPS module 133 by serial port connecting wire, in real time with the measurement data of the boat-carrying receiver of GPS module 133 and related information transmission to microprocessor 131, work out post processor by the user, carry out further analyzing and processing, sample information can be in the real-time demonstration of GIS module 132, terminal control module 14 is responsible for finishing the controlling of sampling of monitoring means, water distribution control, cleaning control, and gps data collection, water monitoring data gathers and the Data Transmission Controlling function.

Surveillance center 15 is command centres of whole automatic water quality monitoring system, receive, show, analyze the water quality parameter of each monitoring point, Surveillance center 15 is by 14 work of wireless network management terminal control module, timing acquiring monitoring terminal data, set up the water quality data storehouse, carry out cartography take ARC GIS Geographic Information System as platform.

Wherein, GIS module 132 receives the gps data that the boat-carrying receiver in the GPS module 133 sends by serial communication, behind data analysis, dynamically shows the information such as cartographic information, GPS monitoring point coordinate, TP, TN Monitoring Data and water function zoning.

The system that water body is carried out automatic sampling analysis that the utility model provides, the water sample that 12 pairs of water body sampling devices 11 of water analysis device are taked is analyzed, the result that 13 pairs of water analysis devices of analysis result display device 12 are analyzed shows, terminal control module 14 has controlling of sampling, water distribution control, cleaning control, and gps data collection, water monitoring data gathers and the Data Transmission Controlling function, Surveillance center 15 is command centres of the automatic sampling analysis system of whole water body, be used for receiving, show, analyze the water quality parameter of each monitoring point, and by 14 work of wireless network management terminal control module, timing acquiring monitoring terminal data, set up the water quality data storehouse, carry out cartography take ARC GIS Geographic Information System as platform, rapidly, easy determination techniques and monitoring system, can be timely, grasp all sidedly the blue-green algae regimen, be governments at all levels, research institution provides timely data and information, water analysis device 12 adopts rapidly, easy, need not chemical reagent, the spectroscopic analysis methods monitoring water quality parameter of simultaneous determination of multiponents characteristics, data and the report of quick image are provided for water environment early warning and government decision, ability and level to the blue-green algae early warning and monitoring have been improved, can fully understand level and distribution that Water phosphorus pollutes, solved existing monitoring means people, wealth, thing consumes huge, and sampling, analytical cycle is long, be difficult to provide the same day problem of monitoring result, have certain scientific meaning and using value.

Below only be preferred embodiment of the present utility model, not in order to limiting the utility model, all any modifications of within spirit of the present utility model and principle, doing, be equal to and replace and improvement etc., all should be included within the protection domain of the present utility model.

Claims (6)

1. the system that water body is carried out automatic sampling analysis is characterized in that, this system comprises: water body sampling device, water analysis device, analysis result display device, terminal control module, Surveillance center;

Described water body sampling device is connected with the water analysis device, described water analysis device is connected with the analysis result display device, described water body sampling device, water analysis device and analysis result display device are connected with described terminal control module, and described terminal control module communicates by wireless network and described Surveillance center.

2. the system as claimed in claim 1 is characterized in that, described water body sampling device comprises: suction inlet filter screen, intake pipe, fastening holding tube, fixed head, wired hose, self-priming pump;

Described suction inlet filter screen is installed in the water inlet port of described intake pipe, is set with described fastening holding tube on the described intake pipe, and described fastening holding tube is fixed on the described fixed head, and described fixed head is installed on the hull;

The water outlet port of described intake pipe is connected with the water inlet port of described self-priming pump by described wired hose, and described terminal control module is connected with described self-priming pump.

3. the system as claimed in claim 1 is characterized in that, described water analysis device comprises: infrared spectrometer, optical fiber, probe, stopple coupon;

Described infrared spectrometer is connected with described probe by optical fiber, and described probe is installed on the described stopple coupon;

The water inlet port of described stopple coupon is connected with the water outlet port of described self-priming pump, and the water outlet port of described stopple coupon is connected with drainpipe, and described infrared spectrometer is connected with described terminal control module.

4. such as claim 1 or 3 described systems, it is characterized in that described stopple coupon comprises: the first retaining valve, the second retaining valve, sample chamber, the first hand valve, the second hand valve;

Described sample chamber is arranged on the middle part of described stopple coupon, and the top of described sample chamber is followed successively by described the first hand valve and the first retaining valve, and the bottom of described sample chamber is followed successively by described the second hand valve and the second retaining valve;

Probe in the described water analysis device is installed in the outside of described sample chamber.

5. such as claim 1 or 3 described systems, it is characterized in that described analysis result display device comprises: microprocessor, GIS module, GPS module;

Infrared spectrometer in the described water analysis device is connected with described microprocessor, and described GIS module and GPS module are connected with described microprocessor, and described microprocessor, GIS module and GPS module are connected with described terminal control module.

6. the system as claimed in claim 1 is characterized in that, described GPS module adopts the boat-carrying receiver to obtain the geographic coordinate information of sensing point, then sends the geographic coordinate information of sensing point to microprocessor in the mode of serial communication.

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