CN218917371U - Pollutant analysis system and sampling storage equipment thereof - Google Patents

Abstract

The utility model discloses a pollutant analysis system and sampling and storage equipment thereof, which comprises a rack, wherein a sampling device is arranged on the rack: comprises a sampling tube which can be extended or contracted, a collecting container and a water pump; and a detection module: the detection module is used for detecting water pollutants and is arranged on the sampling tube; and (3) a monitoring platform: the monitoring platform is respectively connected with the water pump and the detection module; and an analysis module: the analysis module is arranged in the collection container; sample storage platform: the sample storage platform is used for storing the analyzed water body samples and is connected with the collection container; and (3) the management terminal: and the monitoring platform is connected with the analysis module and is used for recording data. The utility model has simple structure and convenient use, the water pipe can be put in a more distant and selectable target water body by winding the water pipe by using the winding wheel, and the detection module can float at the fixed depth on the water surface by using the buoy.

Description

Pollutant analysis system and sampling storage equipment thereof

Technical Field

The utility model relates to the field of water monitoring, in particular to a pollutant analysis system and sampling and storage equipment thereof.

Background

The water body monitoring technology is used in various fields, such as food processing emission, chemical emission, aquaculture, river monitoring and the like, and the water body quality is known through sampling, monitoring and analysis of water body pollution, and corresponding measures are taken in the related fields, such as water body purification, water body filtration, water energy application and the like.

The existing water body monitoring is generally manually sampled, then the water body is brought back to the unit for water body analysis, and the water body monitoring instruments of some equipment do not have the functions of real-time monitoring, real-time analysis and sample preservation. The real-time monitoring and real-time analysis can enable the analysis result to be more accurate, the stored sample can also be used for carrying out targeted purification tests on the water body, and counter measures are more accurate. Existing water analysis also uses water quality monitoring equipment to monitor water, and such equipment is generally large-scale monitoring equipment, and is used for monitoring fixed water at a certain place. The water body is generally divided into flowing water body and static water body, such as river and lake water, when the static water body is monitored, the monitoring accuracy is easy to be low because of the difference of the water quality conditions of all parts of the water body, so that the water body is difficult to implement when the targeted measures are carried out, such as the throwing quantity, concentration and the like of the water body purified matters. The existing water body monitoring generally monitors the water quality by arranging the probe at a fixed position, and the monitoring result is not accurate.

Accordingly, there is a need for further improvements in existing contaminant analysis systems and apparatus.

Disclosure of Invention

Aiming at the prior art, the utility model aims to realize the following technology: the device can be put in different stationary water bodies at fixed points, can also put in flowing water bodies, records water body analysis data, can sample and store samples of target water bodies, and has the functions of target water body monitoring and real-time monitoring.

In order to achieve the above purpose, the present utility model adopts the following scheme:

a pollutant analysis system comprises a frame, wherein the frame is provided with

Sampling device: comprises a sampling tube which can be extended or contracted, a collecting container and a water pump;

and a detection module: the detection module is used for detecting water pollutants and is arranged on the sampling tube;

and (3) a monitoring platform: the monitoring platform is respectively connected with the water pump and the detection module;

and an analysis module: the analysis module is arranged in the collection container;

sample storage platform: the sample storage platform is used for storing the analyzed water body samples and is connected with the collection container;

and (3) the management terminal: and the monitoring platform is connected with the analysis module and is used for recording data.

Further, the detection module comprises a conductivity detector, and the conductivity detector is fixedly arranged on the sampling tube.

Further, the monitoring platform comprises a data transmission module capable of receiving the data of the conductivity detector, and a relay is arranged on the data transmission module.

Further, the water pump in the utility model is connected with a relay.

Further, the analysis module in the utility model comprises a water quality monitor which can analyze the water quality,

further, the management terminal comprises a computer, and the computer is connected with the water quality monitor and the data transmission module.

A pollutant sampling and storing device comprises a sampling device and a sample storing platform.

Further, the sampling tube comprises a reel and a water pipe wound on the reel, the water pumping port of the water pump is connected to one end of the water pipe, and the water outlet of the water pump is connected with a hose and is connected to the collecting container.

Further, the sample storage platform comprises an electric turntable and a plurality of storage containers arranged on the electric turntable, a connecting pipe is arranged on one side of the collection container, an electromagnetic valve is arranged on the connecting pipe, the electromagnetic valve is connected with a data transmission module, and the electric turntable and the electromagnetic valve are connected with a relay.

Further, a buoy is arranged at the extending end of the water pipe, and an air collecting plate is arranged on the buoy.

In summary, compared with the prior art, the utility model has the following beneficial effects:

the utility model has simple structure and convenient use, the water pipe can be wound by the winding wheel, the position of the water pipe can be farther and a target water body can be selected, the detection module can float at the fixed depth of the water surface by utilizing the buoy, the buoy can randomly move on the water surface by natural wind force, the monitoring of each position of the static water body is facilitated, the water quality can be monitored in real time when the water body flows in a river or the like are thrown, the monitored polluted water can be sampled and stored, a plurality of samples can be respectively stored, the subsequent test of targeted measures is convenient, and the implementation of the targeted measures such as purification, filtration and the like is more accurate.

Drawings

FIG. 1 is a schematic diagram of the system of operation of the present utility model.

Fig. 2 is a schematic perspective view of the present utility model.

FIG. 3 is a second perspective view of the present utility model.

Fig. 4 is a schematic side plan view of the present utility model.

Detailed Description

The utility model is further described in the following description and detailed description with reference to the drawings:

a contaminant analysis system as shown in fig. 1 to 4, comprising a frame 1, on which frame 1 sampling means are arranged: comprises a sampling tube 21 which can be extended or contracted, a collecting container 22 and a water pump 23; and a detection module: for detecting water pollutants, the detection module being arranged on the sampling tube 21; and (3) a monitoring platform: the monitoring platform is respectively connected with the water pump 23 and the detection module; and an analysis module: the analysis module is disposed within the collection container 22; sample storage platform: for storing the analyzed water sample, the sample storage platform being connected to the collection container 22; and (3) the management terminal: and the monitoring platform is connected with the analysis module and is used for recording data.

The water body is monitored through the detection module, and when the water quality pollution is monitored to exceed the standard, the detection module sends signals to the monitoring platform, and the monitoring platform converts the signals into data and transmits the data to the management terminal. Meanwhile, after the monitoring platform monitors out-of-standard data, the sampling device is driven to start through the relay, the sampling device pumps the liquid sample into the collecting container through the water pump and the sampling tube, and the analysis module can start to analyze the water quality and display the analysis data on the management terminal for recording. The sample storage platform is used for collecting and storing water after the water quality is analyzed by the analysis module, so that the water quality can be conveniently tested and monitored subsequently. The sample storage platform is connected with the monitoring platform, when the monitoring platform monitors that the water quality pollution exceeds the standard, the connection between the sample storage platform and the collecting container is closed until the analysis module is opened again after analysis, and water flows into the sample storage platform for storage.

The detection module comprises a conductivity detector 3, wherein the conductivity detector 3 is fixedly arranged at the extending end of the water pipe 212. The conductivity detector is in the prior art, can be used for detecting the conductivity of water in water, and is often used for detecting water bodies with oil-water liquid or more impurities. The conductivity detector can be replaced by other probes capable of detecting water quality according to the use condition. The conductivity detector is fixed at the end part of the extending end of the water pipe and is positioned below the buoy and directly stretches into the water for detection.

The monitoring platform comprises a data transmission module 4 which can receive the data of the conductivity detector 3, and a relay is arranged on the data transmission module 4. The data transmission module is used for receiving the signal of the detection module, converting the signal into data and transmitting the data to the computer, and starting the water pump and the sample storage platform through the relay when the data exceeds the rated exceeding value of the relay. The data transmission module is a common technology in the prior art.

The water pump 23 is connected with a relay. The relay is the prior common technology, and can start the water pump to pump water after the converted data exceeds the rated exceeding value of the relay to the water pump.

The analysis module comprises a water quality monitor 5 which can analyze water quality, the water quality monitor can analyze water quality and transmit data to a computer for display, and the water quality monitor is a common technology in the prior art.

The management terminal comprises a computer 6, wherein the computer 6 is connected with a water quality monitor 5 and a data transmission module 4. The computer is used for receiving the data of the water quality detector and the data transmission module and displaying the data on the screen in a numerical mode. Through the setting of the computer, the rated exceeding value of the relay can be adjusted, and the working time and the starting time interval of the water pump and the sample storage platform can be controlled by additionally arranging a singlechip on the data transmission module. The condition that water is pumped all the time due to exceeding standard is avoided.

The sampling tube 21 comprises a reel 211 and a water pipe 212 wound on the reel 211, a water pumping port of the water pump 23 is connected to one end of the water pipe 212, and a water outlet of the water pump 23 is connected with a hose and is connected into the collecting container 22. The water pipe is wound on the reel, so that the detection module can be put on a far water body after the water pipe is released, and the water pipe can be in a relatively loose state. The water pipe is wound on the one end of establishing on the reel and is connected on the water pumping mouth of water pump, starts through the water pump, will enable the one end that emits of water pipe to draw water to finally get into the water pump, then get into in the collection container. The water pipe is inserted into the rotating shaft from the rotating shaft of the reel and penetrates out from one end of the rotating shaft, the water pump pumping port is also connected with a pipe, the pipe on the water pump pumping port is connected with the water pipe through a rotating piece, and the rotating piece is a common mechanical component, so that the water pump pumping port can rotate between the pipe and the water pipe.

In the utility model, a buoy 8 is arranged on the extending end of the water pipe 212, and a wind collecting plate 81 is arranged on the buoy 8. The buoy is arranged at one end of the water pipe, and the setting position of the buoy on the water pipe is the depth of the water pipe detection water body, so that the buoy can be considered to be adjusted. Through the setting of buoy, the water pipe emits the end and can be in each position in the water, and the collection aerofoil on the buoy can install the cloth and be sail form setting, makes the buoy can be through natural wind at the random removal on the surface of water, monitors the random area on the water.

The sample storage platform comprises an electric turntable 71 and a plurality of storage containers 72 arranged on the electric turntable 71, a connecting pipe 73 is arranged on one side of the collection container 22, an electromagnetic valve 74 is arranged on the connecting pipe 73, the electromagnetic valve 74 is connected with the data transmission module 4, and the electric turntable 71 and the electromagnetic valve 74 are connected with a relay. After the water is pumped in by the water pump, the water enters the collecting container from the water outlet of the water pump, the electromagnetic valve is in a closed state at the moment, and the water quality monitor can analyze the water quality. When the next time the water pump starts, through the trigger of relay, the solenoid valve will open, and electric turntable will rotate simultaneously too, and the connecting pipe leads to water, stores in the water inflow empty storage container that will be in the collection container, and electric turntable rotates again when triggering by the relay until next time, lets empty storage container aim at the connecting pipe. According to actual demand, also accessible singlechip sets up electric turntable and solenoid valve, sets up to the back reclosing solenoid valve and rotate electric turntable after the settlement time of start-up.

While there has been shown and described what is at present considered to be the fundamental principles and the main features of the utility model and the advantages thereof, it will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, but is described in the foregoing description merely illustrates the principles of the utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model as hereinafter claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. A pollutant analysis system comprising a frame (1), characterized in that: is provided with the frame (1)

Sampling device: comprises a sampling tube (21) which can be extended or contracted, a collecting container (22) and a water pump (23);

and a detection module: the detection module is used for detecting water pollutants and is arranged on the sampling tube (21);

and (3) a monitoring platform: the monitoring platform is respectively connected with the water pump (23) and the detection module;

and an analysis module: the analysis module is disposed within a collection container (22);

sample storage platform: for storing the analysed water sample, the sample storage platform being connected to a collection container (22);

and (3) the management terminal: and the monitoring platform is connected with the analysis module and is used for recording data.

2. A pollutant analysis system according to claim 1, in which the detection module comprises a conductivity detector (3), the conductivity detector (3) being mounted on a sampling tube (21).

3. A pollutant analysis system according to claim 2, in which the monitoring platform comprises a data transmission module (4) capable of receiving data from the conductivity detector (3), the data transmission module (4) being provided with a relay.

4. A pollutant analysis system according to claim 3, in which the water pump (23) is connected to a relay.

5. A pollutant analysis system according to claim 3, in which the analysis module comprises a water quality monitor (5) capable of analysing the water quality.

6. A pollutant analysis system according to claim 5, characterized in that the management terminal comprises a computer (6), the computer (6) being connected to the water quality monitor (5) and the data transmission module (4).

7. A contaminant sampling and storage device comprising a contaminant analysis system according to any one of claims 1 to 6, said sampling and storage device comprising sampling means and a sample storage platform.

8. The pollutant sampling and storing device according to claim 7, wherein the sampling tube (21) comprises a reel (211) and a water pipe (212) wound on the reel (211), a water pumping port of the water pump (23) is connected to one end of the water pipe (212), and a water outlet of the water pump (23) is connected with a hose and is connected to the inside of the collecting container (22).

9. A contaminant sampling and storage device according to claim 8, characterized in that the sample storage platform comprises an electric turntable (71) and a plurality of storage containers (72) arranged on the electric turntable (71), a connecting pipe (73) is arranged on one side of the collecting container (22), an electromagnetic valve (74) is arranged on the connecting pipe (73), the electromagnetic valve (74) is connected with the data transmission module (4), and the electric turntable (71) and the electromagnetic valve (74) are connected with a relay.

10. A contaminant sampling and storage device according to claim 8, characterized in that a float (8) is provided on the projecting end of said water pipe (212), and that a wind collecting plate (81) is provided on said float (8).

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