CN216525756U - Liquid path system of water quality on-line monitoring quality control instrument - Google Patents

Abstract

The utility model discloses a liquid path system of a water quality online monitoring and quality control instrument, which belongs to the technical field of water quality detection and comprises a water sample storage tank, a standard liquid storage tank, a purified water storage tank, a cleaning agent storage tank, a dilution tank, a diluted waste liquid storage tank, a sampling module and a first air pump; the water sample storage tank is connected with the sampling module through a liquid pipeline and a three-way valve, the water sample storage tank, the diluted waste liquid storage tank, the standard liquid storage tank, the purified water storage tank and the cleaning agent storage tank are connected with the dilution tank through a liquid pipeline and a three-way valve, and the dilution tank is also connected with the first air pump; when the liquid path system is used, the liquid path system comprises three working modes, namely a direct original water sample supply mode, a quality control mode and a high-concentration water sample dilution mode. The liquid path system of the water quality online monitoring and quality control instrument has various functions and convenient use, and can avoid cross contamination by adding samples in sections and arranging cleaning pipelines.

Description

Liquid path system of water quality on-line monitoring quality control instrument

Technical Field

The utility model belongs to the technical field of water quality monitoring, and particularly relates to a liquid path system of a water quality online monitoring and quality control instrument.

Background

The water quality on-line monitoring and controlling instrument is one water quality monitoring equipment, and provides quality control sample for the on-line monitoring instrument mainly through the constant volume of pure water in the sample tank and the metering of mother liquid with the pump. In the using process, the water quality on-line monitoring quality control instrument needs to be cleaned and emptied before and after working so as to ensure the cleanness and no pollution of a quality control sample and ensure the accuracy of a monitoring result.

The water quality on-line monitoring quality control instrument in the prior art has some problems due to the influence of the liquid path structure and the detection method: quality control appearance quantity that can acquire is single, can't acquire the quality control appearance of multiple different concentration, and the function is incomplete, has hydrops and cross contamination problem in some liquid ways, influences the degree of accuracy of instrument survey value.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a liquid path system of a water quality on-line monitoring and quality control instrument, which aims to solve the technical problems in the background art.

In order to achieve the aim, the utility model discloses a liquid path system of a water quality online monitoring and quality control instrument, which comprises a water sample storage tank, a standard liquid storage tank, a purified water storage tank, a cleaning agent storage tank, a dilution pool, a diluted waste liquid storage tank, a sampling module and a first air pump; the water sample storage tank is connected with the sampling module through a first water sample pipeline, a first three-way valve and a sampling pipeline in sequence, and the dilution pool is connected with the first three-way valve through a dilution liquid outflow pipeline; the water sample storage tank and the dilution pool are connected with each other through a second water sample pipeline, a second three-way valve, a third water sample pipeline, a third three-way valve, a peristaltic pump pipeline, a peristaltic pump and a sample supply pipeline in sequence; the standard liquid storage tank and the third three-way valve are connected through a first standard liquid pipeline, a fourth three-way valve and a second standard liquid pipeline in sequence; the purified water storage tank and the fourth three-way valve are connected with each other through a first purified water pipeline, a fifth three-way valve and a second purified water pipeline in sequence; the cleaning agent storage tank is connected with the fifth three-way valve through a cleaning agent pipeline; the diluting tank and the diluted waste liquid storage tank are connected through a diluting tank pipeline, a sixth three-way valve and a diluted waste liquid pipeline in sequence; the sixth three-way valve is connected with the first air pump through an air pipeline; the sampling module is connected with a matched detection instrument.

Further, the liquid path system also comprises a second air pump, and the diluting pool is connected with the second air pump through a second air pipeline.

Further, a second gas pipe is arranged on the second gas pipeline.

Furthermore, a one-way air valve is arranged on the first air pipeline.

Furthermore, a first air pipe is arranged on the first air pipeline and between the one-way air valve and the first air pump.

Furthermore, a liquid level sensor is arranged on the sample supply pipeline.

Further, the liquid level sensor is a capacitance type liquid level sensor.

Furthermore, a liquid storage tank is arranged on the peristaltic pump pipeline.

The use method of the liquid path system of the water quality online monitoring and quality control instrument comprises three working modes, namely a direct original water sample supply mode, a quality control mode and a high-concentration water sample dilution mode.

Further, in a mode of directly supplying an original water sample, the water sample sequentially passes through the first water sample pipeline, the first three-way valve and the sampling pipeline to enter the sampling module for detection of a matched detection instrument;

under the quality control mode, the method comprises the following steps of (1) adding an original water sample: the water sample passes through second water sample pipeline, second three-way valve, third water sample pipeline, third three-way valve, peristaltic pump pipeline, peristaltic pump and supply appearance pipeline in proper order and gets into in the dilution pond, (2) add the mark liquid: the mark liquid gets into the dilution pond through first mark liquid pipeline, fourth three-way valve, second mark liquid pipeline, third three-way valve, peristaltic pump pipeline, peristaltic pump and supply appearance pipeline in proper order, (3) add the pure water: the pure water passes through first pure water pipeline, fifth three-way valve, the pure water pipeline of second, fourth three-way valve, the standard liquid pipeline of second, third three-way valve, peristaltic pump pipeline, peristaltic pump and supply appearance pipeline in proper order and gets into the dilution tank, (4) the mixing: inside gas got into the dilution pond through first gas pipeline, sixth three-way valve and dilution pond pipeline by first air pump, squeezed into the bubble in the mixed liquid in the dilution pond to the mixed liquid mixing in with the dilution pond, (5) quality control detects: the liquid mixed uniformly in the dilution tank flows out to a sampling module through a dilution liquid outflow pipeline, a first three-way valve and a sampling pipeline and is used for quality control detection of a matched detection instrument; (6) waste discharge: the waste liquid sequentially passes through the pipeline of the dilution tank, the sixth three-way valve and the diluted waste liquid pipeline and enters the diluted waste liquid storage tank; (7) cleaning a pipeline: cleaning agents enter the dilution tank from a cleaning agent pipeline, a fifth three-way valve, a second purified water pipeline, a fourth three-way valve, a second standard liquid pipeline, a third three-way valve, a peristaltic pump pipeline, a peristaltic pump and a sample supply pipeline to achieve the purpose of cleaning the dilution tank and the pipelines, and waste liquid is discharged after cleaning is finished;

under diluting high concentration water sample mode, add original water sample and the pure water of step (3) according to the (1) in the quality control mode, according to a certain proportion, add original water sample and pure water in the dilution pond respectively, then according to the (4) step mixing in the quality control mode, the mixing liquid mixing in the dilution pond, then according to the (5) step quality control in the quality control mode detects, adopt supporting detecting instrument to carry out the quality control to the mixing liquid in the dilution pond and detect, then according to step (6) and (7) step in the quality control mode, arrange useless and wash the pipeline.

Compared with the prior art, the liquid path system of the water quality on-line monitoring and quality control instrument has the following advantages:

(1) the liquid path system of the water quality on-line monitoring and quality control instrument has three working modes, can be used for respectively preparing an original water sample, a standard liquid adding water sample and a high-concentration water sample for detection of a matched detection instrument, and has various functions and more convenient use.

(2) The liquid path system of the water quality on-line monitoring and quality control instrument has the advantages of simple structure, easy disassembly, convenient maintenance and replacement and low manufacturing cost.

(3) The liquid path system of the water quality on-line monitoring and quality control instrument adopts the three-way valve to control, different liquids are added in stages, and the liquids are separated when various liquids are pumped into the diluting tank, so that the cross contamination can be effectively avoided.

(4) The cleaning agent pipeline is arranged in the liquid path system of the water quality on-line monitoring and quality control instrument, so that the liquid path system and the dilution tank can be cleaned, accumulated liquid in the liquid path system is avoided, and the cleanness of the liquid path system is kept.

Drawings

Fig. 1 is a schematic structural view of a liquid path system of the water quality on-line monitoring and quality control instrument in embodiment 1.

Fig. 2 is a schematic structural diagram of a liquid path system of the online water quality monitoring and control instrument in embodiment 2.

Wherein: 1. a water sample storage tank; 2. a standard solution storage tank; 3. a purified water storage tank; 4. a cleaning agent storage tank; 5. a dilution tank; 6. a dilute waste liquid storage tank; 7. a sampling module; 8. a first air pump; 9. a second air pump; 11. a first water sample pipe; 12. a first three-way valve; 71. a sampling pipe; 13. a second water sample pipeline; 14. a second three-way valve; 15. a third water sample pipeline; 16. a third three-way valve; 17. a peristaltic pump tube; 18. a peristaltic pump; 19. a sample supply pipeline; 21. a first standard liquid pipeline; 22. a fourth three-way valve; 23. a second standard liquid pipeline; 31. a first purified water pipeline; 32. a fifth three-way valve; 33. a second purified water pipeline; 41. a cleaning agent pipeline; 51. the diluent flows out of the pipeline; 52. a dilution tank conduit; 53. a sixth three-way valve; 54. a dilute waste pipe; 81. a first gas conduit; 82. a one-way air valve; 83. a first air pipe; 91. a second gas conduit; 92. a second air pipe; 171. a liquid storage tank; 191. a liquid level sensor.

Detailed Description

The technical solution of the present invention will be described below by describing specific examples in detail.

Example 1

Fig. 1 is a schematic structural view of a fluid path system of the water quality on-line monitoring and control instrument in embodiment 1.

A liquid path system of a water quality on-line monitoring and quality control instrument comprises a water sample storage tank 1, a standard liquid storage tank 2, a purified water storage tank 3, a cleaning agent storage tank 4, a dilution pool 5, a diluted waste liquid storage tank 6, a sampling module 7, a first air pump 8 and a second air pump 9;

the water sample storage tank 1 is connected with the sampling module 7 through a first water sample pipeline 11, a first three-way valve 12 and a sampling pipeline 71 in sequence, and the diluting pool 5 is connected with the first three-way valve 12 through a diluent outflow pipeline 51;

the water sample storage tank 1 and the dilution pool 5 are connected with each other through a second water sample pipeline 13, a second three-way valve 14, a third water sample pipeline 15, a third three-way valve 16, a peristaltic pump pipeline 17, a peristaltic pump 18 and a sample supply pipeline 19 in sequence; a liquid level sensor 191 is arranged on the sample supply pipeline 19, and the liquid level sensor 191 is a capacitance type liquid level sensor;

the standard liquid storage tank 2 is connected with the third three-way valve 16 through a first standard liquid pipeline 21, a fourth three-way valve 22 and a second standard liquid pipeline 23 in sequence;

the purified water storage tank 3 and the fourth three-way valve 22 are connected with each other through a first purified water pipeline 31, a fifth three-way valve 32 and a second purified water pipeline 33 in sequence;

the cleaning agent storage tank 4 is connected with the fifth three-way valve 32 through a cleaning agent pipeline 41;

the diluting pool 5 and the diluted waste liquid storage tank 6 are connected through a diluting pool pipeline 52, a sixth three-way valve 53 and a diluted waste liquid pipeline 54 in sequence;

the sixth three-way valve 53 is connected with the first air pump 8 through a first air pipeline 81, and a one-way air valve 82 is arranged on the first air pipeline 81;

a first air pipe 83 is arranged on the first air pipeline 81 and positioned between the one-way air valve 82 and the first air pump 8;

the diluting tank 5 is connected with the second air pump 9 through a second air pipeline 91, and a second air pipe 92 is arranged on the second air pipeline 91;

the first air pipe 83 and the second air pipe 92 are small-caliber air pipes, the first air pipe 83 is matched with the first air pump 8 for use, and is used for controlling the air pressure in the first air pipeline 81, and matched with flow path control, so that the air pressure in the dilution pool pipeline 52 and the air pressure entering the dilution pool 5 are controlled, bubbles can be injected into the diluent in the dilution pool 5, and the diluent is promoted to be uniformly mixed; the second air pipe 92 is used in cooperation with the second air pump 9 to control the air pressure in the second air pipe 91, and control the air pressure entering the dilution tank 5 in cooperation with the flow path control, so as to promote the discharge of the diluent in the dilution tank 5.

The sampling module 7 is connected with a matched detection instrument.

The use method of the liquid path system of the water quality online monitoring and quality control instrument comprises three working modes, which are respectively as follows: firstly, directly supplying an original water sample mode; second, a quality control mode; third, dilute high-strength water sample mode. The use method in different working modes is as follows:

first, direct feed raw water sample mode:

open and adjust first three-way valve 12, make first three-way valve 12 communicate sampling pipeline 71 and first water sample pipeline 11, close other three-way valves, the water sample in the water sample storage tank 1 passes through first water sample pipeline 11, first three-way valve 12 and sampling pipeline 71 in proper order and gets into sampling module 7, can directly supply original water sample in to sampling module 7 for supporting detecting instrument's detection.

Second, quality control mode:

(1) adding an original water sample:

opening a second three-way valve 14 and a third three-way valve 16, enabling the third three-way valve 16 to be communicated with a third water sample pipeline 15 and a peristaltic pump pipeline 17, starting a peristaltic pump 18, enabling a water sample in the water sample storage tank 1 to sequentially pass through a second water sample pipeline 13, the second three-way valve 14, the third water sample pipeline 15, the third three-way valve 16, the peristaltic pump pipeline 17, the peristaltic pump 18 and a sample supply pipeline 19 to enter a dilution pool 5, enabling the peristaltic pump 18 to quantitatively and accurately convey the water sample with accurate volume to the dilution pool 5, and closing the second three-way valve 14 and the third three-way valve 16 after the water sample is completely sampled;

(2) adding a standard solution:

opening a fourth three-way valve 22 and a third three-way valve 16, enabling the fourth three-way valve 22 to be communicated with a first standard liquid pipeline 21 and a second standard liquid pipeline 23, enabling the third three-way valve 16 to be communicated with a second standard liquid pipeline 23 and a peristaltic pump pipeline 17, enabling the standard liquid in a standard liquid storage tank 2 to sequentially pass through the first standard liquid pipeline 21, the fourth three-way valve 22, the second standard liquid pipeline 23, the third three-way valve 16, the peristaltic pump pipeline 17, the peristaltic pump 18 and a sample supply pipeline 19 to enter a dilution pool 5, enabling the peristaltic pump 18 to quantitatively and accurately convey the standard liquid with accurate volume to the dilution pool 5, and closing the fourth three-way valve 22 after completion;

(3) adding purified water:

opening a fifth three-way valve 32 and a fourth three-way valve 22, enabling the fifth three-way valve 32 to be communicated with a first purified water pipeline 31 and a second purified water pipeline 33, enabling the fourth three-way valve 22 to be communicated with the second purified water pipeline 33 and a second standard liquid pipeline 23, enabling purified water in the purified water storage tank 3 to sequentially pass through the first purified water pipeline 31, the fifth three-way valve 32, the second purified water pipeline 33, the fourth three-way valve 22, the second standard liquid pipeline 23, the third three-way valve 16, the peristaltic pump pipeline 17, the peristaltic pump 18 and the sample supply pipeline 19 to enter the dilution pool 5, enabling the peristaltic pump 18 to quantitatively and accurately convey purified water with accurate volume to the dilution pool 5, and closing the fifth three-way valve 32, the fourth three-way valve 22 and the third three-way valve 16 after the purified water is completely purified water enters the dilution pool 5;

(4) uniformly mixing:

the peristaltic pump 18 is closed, the one-way air valve 82 and the sixth three-way valve 53 are opened, the sixth three-way valve 53 is communicated with the first air pipeline 81 and the dilution pool pipeline 52, the first air pump 8 is opened, air output from the first air pump 8 enters the dilution pool 5 through the one-way air valve 82, the first air pipeline 81, the sixth three-way valve 53 and the dilution pool pipeline 52, the first air pipe 83 can adjust air pressure in the first air pipeline 81, bubbles are injected into mixed liquid in the dilution pool 5, so that water samples, standard liquid and purified water in the dilution pool 5 are uniformly mixed, and the first air pump 8, the one-way air valve 82 and the sixth three-way valve 53 are closed after the mixing is completed;

(5) quality control detection:

opening the first three-way valve 12 to enable the first three-way valve 12 to be communicated with the sampling pipeline 71 and the diluent outflow pipeline 51, enabling the uniformly mixed liquid in the dilution pool 5 to flow out to the sampling module 7 through the diluent outflow pipeline 51, the first three-way valve 12 and the sampling pipeline 71, and closing the first three-way valve 12 after the completion of the dilution flow for quality control detection of a matched detection instrument;

(6) waste discharge:

opening a sixth three-way valve 53, enabling the sixth three-way valve 53 to be communicated with a diluting pool pipeline 52 and a diluted waste liquid pipeline 54, opening a second air pump 9, enabling air output from the second air pump 9 to enter the diluting pool 5 through a second air pipeline 91, enabling a second air pipe 92 to adjust air pressure in the second air pipeline 91, enabling waste liquid in the diluting pool 5 to sequentially enter a diluted waste liquid storage tank 6 through the diluting pool pipeline 52, the sixth three-way valve 53 and the diluted waste liquid pipeline 54 under the action of external air pressure, and closing the sixth three-way valve 53 after the waste liquid is finished;

(7) cleaning a pipeline:

after the detection is finished, the pipeline needs to be cleaned, when the pipeline is cleaned, the third three-way valve 16, the fourth three-way valve 22, the fifth three-way valve 32 and the peristaltic pump 18 are opened, so that the third three-way valve 16 is communicated with the peristaltic pump pipeline 17 and the second standard liquid pipeline 23, the fourth three-way valve 22 is communicated with the second standard liquid pipeline 23 and the second pure water pipeline 33, and the fifth three-way valve 32 is communicated with the second pure water pipeline 33 and the cleaning agent pipeline 41; the cleaning agent in the cleaning agent storage tank 4 enters the diluting pool 5 from the cleaning agent pipeline 41, the fifth three-way valve 32, the second pure water pipeline 33, the fourth three-way valve 22, the second standard liquid pipeline 23, the third three-way valve 16, the peristaltic pump pipeline 17, the peristaltic pump 18 and the sample supply pipeline 19, the purpose of cleaning the diluting pool 5 and the pipelines is achieved, and waste liquid is discharged after cleaning is completed.

Third, dilute high-concentration water sample mode:

when the original water sample is a high-concentration water sample, the high-concentration water sample needs to be diluted and then detected, at the moment, according to the step (1) and the step (3) in the quality control mode, the original water sample and the purified water are respectively added into the diluting pool 5 according to a certain proportion, then, according to the step (4) in the quality control mode, the mixed liquid in the diluting pool 5 is uniformly mixed, then, according to the step (5) in the quality control mode, the mixed liquid in the diluting pool 5 is subjected to quality control detection, and a matched detection instrument can calculate the related data of the high-concentration water sample according to the dilution ratio.

In the working process, the liquid level sensor 191 is matched with the peristaltic pump 18, so that the liquid passing can be detected, the shortage of the reagent is prompted in an alarm mode, and the maintenance of the equipment is facilitated.

Example 2

Fig. 2 is a schematic structural view of a liquid path system of the online water quality monitoring and control instrument in embodiment 2.

Compared with the embodiment 1, the difference between the liquid path system of the water quality on-line monitoring quality control instrument in the embodiment 2 and the embodiment 1 is only that: a reservoir tank 171 is provided on the peristaltic pump tubing 17.

Reservoir 171 may store mixed liquid prior to peristaltic pump 18 to provide a buffer to facilitate peristaltic pump 18 pumping mixed liquid from reservoir 171.

The method for using the liquid path system of the water quality on-line monitoring and quality control instrument in the embodiment 2 is the same as that in the embodiment 1.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like made within the design concept of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides a quality of water on-line monitoring matter accuse appearance's liquid way system which characterized in that: the device comprises a water sample storage tank, a standard solution storage tank, a purified water storage tank, a cleaning agent storage tank, a dilution pool, a diluted waste liquid storage tank, a sampling module and a first air pump; the water sample storage tank is connected with the sampling module through a first water sample pipeline, a first three-way valve and a sampling pipeline in sequence, and the dilution pool is connected with the first three-way valve through a dilution liquid outflow pipeline; the water sample storage tank and the dilution pool are connected with each other through a second water sample pipeline, a second three-way valve, a third water sample pipeline, a third three-way valve, a peristaltic pump pipeline, a peristaltic pump and a sample supply pipeline in sequence; the standard liquid storage tank and the third three-way valve are connected through a first standard liquid pipeline, a fourth three-way valve and a second standard liquid pipeline in sequence; the purified water storage tank and the fourth three-way valve are connected with each other through a first purified water pipeline, a fifth three-way valve and a second purified water pipeline in sequence; the cleaning agent storage tank is connected with the fifth three-way valve through a cleaning agent pipeline; the diluting tank and the diluted waste liquid storage tank are connected through a diluting tank pipeline, a sixth three-way valve and a diluted waste liquid pipeline in sequence; the sixth three-way valve is connected with the first air pump through an air pipeline; the sampling module is connected with a matched detection instrument.

2. The liquid path system of the water quality on-line monitoring and quality control instrument according to claim 1, characterized in that: the liquid path system also comprises a second air pump, and the diluting pool is connected with the second air pump through a second air pipeline.

3. The liquid path system of the water quality on-line monitoring and quality control instrument as claimed in claim 2, wherein: a second air pipe is arranged on the second air pipeline.

4. The liquid path system of the water quality on-line monitoring and quality control instrument according to claim 1, characterized in that: the first air pipeline is provided with a one-way air valve.

5. The liquid path system of the water quality on-line monitoring and quality control instrument according to claim 4, characterized in that: a first air pipe is arranged on the first air pipeline and between the one-way air valve and the first air pump.

6. The liquid path system of the water quality on-line monitoring and quality control instrument according to claim 1, characterized in that: a liquid level sensor is arranged on the sample supply pipeline.

7. The liquid path system of the water quality on-line monitoring and quality control instrument according to claim 6, characterized in that: the liquid level sensor is a capacitance type liquid level sensor.

8. The liquid path system of the water quality on-line monitoring and quality control instrument according to claim 1, characterized in that: a liquid storage tank is arranged on the peristaltic pump pipeline.

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