CN112816645A - Water body identification system and method - Google Patents

Abstract

The application discloses water body identification system and method, wherein the system comprises: the water sampling module is used for collecting a water sample; the water distribution module is used for adding water to the water sample and treating the water sample; the analysis module is used for analyzing the water quality of the treated water sample; the main control module is used for controlling each module and acquiring information from each module; and the storage module is connected with the main control module and is used for storing the acquired parameter information. The display module is connected with the main control module and used for displaying the acquired parameter information; through this application the scheme can realize the automatic identification of water, conveniently confirms each material content in the water sample to carry out the analysis to quality of water.

Description

Water body identification system and method

Technical Field

The present disclosure relates to the field of water body identification, and more particularly, to a water body identification system and method.

Background

Water is a necessary condition for maintaining life, however, with the continuous development of economy, the water for industrial and agricultural use is continuously increased, and the generated industrial and agricultural waste water, domestic sewage and the like continuously destroy water resources on which people live, so that water treatment is urgent. The water pollution prevention action plan is formally published in 2015 for 4, 16, the importance of water environment monitoring is mentioned in the plan for a plurality of times, and before 2017, areas such as Jingjin Ji, Long triangle, bead triangle and the like and sea areas are required to build a uniform water environment monitoring network, so how to identify water bodies and analyze the water pollution degree is an urgent problem to be solved.

Disclosure of Invention

The purpose of this application is to solve the problem of water body discernment.

The technical purpose of the application is realized by the following technical scheme: a water body identification system, comprising:

the water sampling module is used for collecting a water sample;

the water distribution module is used for adding water to the water sample and treating the water sample;

the analysis module is used for analyzing the water quality of the treated water sample;

the main control module is used for controlling each module and acquiring information from each module;

the storage module is connected with the main control module and used for storing the acquired parameter information;

and the display module is connected with the main control module and is used for displaying the acquired parameter information.

According to the technical scheme, the water sample is acquired through the water sampling module, the water sample is subjected to water adding and other treatments through the water distribution module, the water sample after treatment is subjected to water quality analysis through the analysis module, the data of the water quality analysis are transmitted to the main control module and stored in the storage module, the analysis result is displayed through the display module, analysis and display are facilitated, and automatic identification of the water body is achieved.

Further, the water body identification system further includes:

and the communication module is connected with the main control module and used for establishing communication connection with the mobile terminal and sending the parameter information to the mobile terminal.

According to the scheme, the communication connection is established with the mobile terminal through the communication module, the parameter information is sent to the mobile terminal, data can be acquired through the mobile terminal, and the effect of remote monitoring is achieved.

Further, the water body identification system, wherein, the water distribution module includes:

the filtering unit is used for filtering and carrying out solid-liquid separation on a water sample;

the screening unit is used for screening and separating different solids of the water sample according to the sizes;

and the cleaning unit is used for cleaning the substances separated from the water sample and distributing water.

According to the technical scheme, the water sample is filtered through the filtering unit, solid-liquid separation is achieved, different solids are screened and separated according to sizes, and finally materials separated by the water sample are cleaned and distributed, so that the materials meet the requirements of the analysis unit.

Further, the water body identification system, wherein the analysis module includes a plurality of sub-analysis units, and the sub-analysis units respectively perform measurement analysis of corresponding indexes.

According to the scheme, a plurality of sub-analysis units are arranged to perform measurement and analysis on different indexes or different microorganisms.

Further, water body identification system, wherein, the water distribution module still includes:

and the metering unit is used for measuring the water pressure and the water quantity of the water sample to be measured after water distribution.

According to the scheme, the water sample to be tested of the tax water is subjected to water pressure and water quantity measurement, the water sample to be tested can meet the detection requirements of the analysis module, for example, the water pressure and the water quantity meet certain requirements, and the accuracy of analysis can be guaranteed.

Further, the application also discloses a water body identification method, wherein the method sequentially comprises the following steps:

s1, collecting a water sample;

s2, adding water into the water sample, and treating the water sample;

s3, analyzing the water quality of the treated water sample;

and S4, outputting a water quality analysis result.

According to the scheme, the water body identification method comprises the steps of firstly collecting a water sample, then adding water to the water sample for treatment, carrying out water quality analysis on the water sample after treatment, finally outputting a water quality analysis result, automatically identifying the water body, analyzing substances in the water body, conveniently judging the water pollution degree, and timely discovering and timely treating.

Further, the water body identification method, wherein the step S2 includes:

s21, filtering a water sample, and carrying out solid-liquid separation;

s22, screening and separating different solids of the water sample according to sizes;

and S23, cleaning and distributing water to the substances separated from the water sample.

According to the scheme, the step of adding water treatment to the obtained water sample comprises the steps of filtering the water sample, realizing solid-liquid separation, screening and separating substances of the solid-liquid separation according to different solid sizes, cleaning separated solids, and analyzing the separated solids and liquid to obtain a water quality analysis result.

Further, the water body identification method, wherein the step S2 further includes:

and S24, measuring the water pressure and the water quantity of the water sample to be measured after water distribution.

According to the above scheme of the application, the analysis module comprises a plurality of sub-analysis units, different indexes of the water sample to be measured are measured, and certain water pressure and water volume are required to be met during measurement, so that the step S2 further comprises the step of measuring the water pressure and the water volume of the water sample to be measured after water distribution, and adjusting the water pressure and the water volume in time to enable the water sample to be measured to meet the measurement requirement.

In summary, the present application discloses a water body identification system and method, wherein the system includes: the water sampling module is used for collecting a water sample; the water distribution module is used for adding water to the water sample and treating the water sample; the analysis module is used for analyzing the water quality of the treated water sample; the main control module is used for controlling each module and acquiring information from each module; and the storage module is connected with the main control module and is used for storing the acquired parameter information. The display module is connected with the main control module and used for displaying the acquired parameter information; through this application the scheme can realize the automatic identification of water, conveniently confirms each material content in the water sample to carry out the analysis to quality of water.

Drawings

Fig. 1 is a block diagram of a water body identification system according to the present application.

Fig. 2 is a block diagram of a water distribution module of the water body identification system of the present application.

Fig. 3 is a flow chart illustrating steps of a water body identification method according to the present application.

Fig. 4 is a flowchart of step S2 of the water body identification method according to the present application.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Referring to fig. 1, a structural block diagram of a water body identification system of the present application is shown, which discloses a water body identification system capable of realizing automatic water body identification, and includes a water collection module 100, a water distribution module 200, an analysis module 300, a main control module 400, a storage module 500 and a display module 600, wherein the water collection module 100 is used for collecting water samples, processing the water samples through the water distribution module 200, and distributing water, the water samples to be detected after water distribution are measured for corresponding parameters through the analysis module 300, and performing water quality analysis, the main control module 400 is used for obtaining information of each module, and displaying the obtained parameter information through the display module 600, the application realizes the whole flow from water sample collection to water sample processing, water sample analysis and output result, on one hand, ensures the accuracy of water quality analysis, on the other hand, interacts with a user through the display module 600 in time, the user can conveniently and timely acquire the water quality information, and early pollution and early cleaning can be realized.

In the foregoing solution, it is mentioned that the main control module can control each module, acquire information from each module, and display the information on the display module 600, and further facilitate the user to know the water quality analysis result, in the preferred embodiment of the present application, the present application further includes a communication module 700, through the communication module 700 establishes a communication connection with the mobile terminal, which may be a 4G or 5G communication, and through inserting a SIM card in the physical device, establishes a 4G or 5G communication connection with the mobile terminal, after the result is analyzed by the water quality, the analysis result is sent to the mobile terminal.

In the foregoing scheme, the water distribution module 200 is used for processing and distributing a water sample to be measured, and referring to fig. 2, the water distribution module is a structural block diagram of the water distribution module, wherein the water sample is processed, solid-liquid separation is performed on the water sample through a filtering unit 201, different solid sizes of the water sample to be measured are screened through a screening unit 202, finally, the solid is cleaned through a cleaning unit 203, and water distribution is performed, so that after the water distribution module meets detection requirements, the water distribution module and the separated liquid are subjected to water quality analysis through an analysis module.

In this application, through analysis module carries out the analysis to the water sample that awaits measuring after handling, need measure different indexes, include: temperature, pH, Dissolved Oxygen (DO), conductivity, turbidity, ammonia nitrogen, chemical oxygen demand, permanganate index, Total Organic Carbon (TOC), total nitrogen, total phosphorus, nitrate, phosphate, cyanide, fluoride, chloride, phenol, oil, metal ion etc. analysis module includes a plurality of sub-analysis unit in this application, can select one or more among the above-mentioned measuring index to carry out water quality analysis.

The aforesaid scheme has been mentioned, including cleaning unit 203 in the analysis module, cleaning unit 203 can wash and the water distribution the material of the water sample separation that awaits measuring, and the meaning of water distribution is exactly when carrying out the analysis to quality of water, and the water pressure and the flow of the water sample that awaits measuring need satisfy the needs of monitoring instrument, consequently need the water distribution, make the water sample that awaits measuring after the water distribution satisfy reach the water pressure and the water yield that satisfy the monitoring requirement to can guarantee the accuracy to the analysis of the material after the separation, also promptly improve the accuracy of water quality analysis.

Based on the above system, the present application further discloses a method for identifying a water body, as shown in fig. 3, which is a flow chart of the steps of the method, and includes:

s1, collecting a water sample;

s2, adding water into the water sample, and treating the water sample;

s3, analyzing the water quality of the treated water sample;

and S4, outputting a water quality analysis result. In the preferred embodiment of the present application, the specific operation flow is as follows: the water quality analysis method comprises the steps of firstly obtaining a water sample to be detected through a water pump and the like, collecting the water sample, preprocessing the water sample, distributing water to enable the water sample to be detected to meet the detection requirement, then carrying out water quality analysis on the processed water sample to be detected through an analysis instrument, outputting the analysis result, and enabling a user to obtain the water quality condition of the water sample to be detected according to the analysis result, so that the pollution degree of the area where the water sample to be detected is located is judged, and timely management is timely known. In addition, after the water quality condition is obtained, the water quality condition can be sent to the mobile terminal of the user, the user can remotely obtain water quality analysis data of the water sample to be tested, and remote management is conveniently achieved.

In this application, referring to fig. 4, which is a flowchart of the step S2, in the step S2, adding water to the water sample, and the step of processing the water sample further includes:

s21, filtering a water sample, and carrying out solid-liquid separation;

s22, screening and separating different solids of the water sample according to sizes;

and S23, cleaning and distributing water to the substances separated from the water sample. This application preferred embodiment carries out preliminary treatment and water distribution to the water sample that awaits measuring and specifically includes: the method comprises the steps that firstly, a water sample to be detected comprises solid and liquid, and the solid substance and the substance in the liquid need to be judged respectively, so that the water sample is firstly filtered, solid-liquid separation is realized, the solid shapes after the solid-liquid separation are different in size, the solid is preferably screened and separated according to the size in order to facilitate detection, the screened solid is cleaned, and the water is distributed to meet the requirements of the water pressure and the water quantity of detection, and the water is also distributed to the separated liquid to meet the requirements of water quality detection. In order to ensure that the water sample to be detected meets the detection requirement, the method further comprises the step of measuring the water pressure and the water quantity of the water sample to be detected, so that the accuracy and the stability of detection are ensured.

By the system and the method, automatic identification of the water body can be realized, the content of each substance in the water sample can be conveniently confirmed, and therefore the water quality is analyzed.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A water body identification system, comprising:

the water sampling module is used for collecting a water sample;

the water distribution module is used for adding water to the water sample and treating the water sample;

the analysis module is used for analyzing the water quality of the treated water sample;

the main control module is used for controlling each module and acquiring information from each module;

the storage module is connected with the main control module and used for storing the acquired parameter information;

and the display module is connected with the main control module and is used for displaying the acquired parameter information.

2. The water body identification system of claim 1, further comprising:

and the communication module is connected with the main control module and used for establishing communication connection with the mobile terminal and sending the parameter information to the mobile terminal.

3. The water body identification system of claim 1, wherein the water distribution module comprises:

the filtering unit is used for filtering and carrying out solid-liquid separation on a water sample;

the screening unit is used for screening and separating different solids of the water sample according to the sizes;

and the cleaning unit is used for cleaning the substances separated from the water sample and distributing water.

4. The water body identification system according to claim 1, wherein the analysis module comprises a plurality of sub-analysis units, and the sub-analysis units respectively perform measurement analysis of corresponding indexes.

5. The water body identification system of claim 3, wherein the water distribution module further comprises:

and the metering unit is used for measuring the water pressure and the water quantity of the water sample to be measured after water distribution.

6. A water body identification method is characterized by sequentially comprising the following steps:

s1, collecting a water sample;

s2, adding water into the water sample, and treating the water sample;

s3, analyzing the water quality of the treated water sample;

and S4, outputting a water quality analysis result.

7. The water body identification method according to claim 6, wherein the step S2 comprises:

s21, filtering a water sample, and carrying out solid-liquid separation;

s22, screening and separating different solids of the water sample according to sizes;

and S23, cleaning and distributing water to the substances separated from the water sample.

8. The water body identification method according to claim 7, wherein the step S2 further comprises:

and S24, measuring the water pressure and the water quantity of the water sample to be measured after water distribution.

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