CN114252577B - Method for detecting white and turbid water quality in fish tank - Google Patents

Abstract

The invention relates to the technical field of water area impurity detection, in particular to a dynamic detection device and a detection method for white and turbid water in a fish tank, wherein the device comprises a detection method, a device body, a sampling assembly, a pre-configuration assembly and an analysis assembly, wherein waterproof paint is laid on a shell of the device body, and a plurality of groups of fluctuation sensors are arranged at intervals on the periphery of the shell; the sampling assembly is embedded in the device body and is detachably connected with the sampling assembly; the pre-configuration component is in signal connection with the sampling component; the analysis component is connected with the pre-configuration component in a data mode, and is configured to analyze data information transmitted by the pre-configuration component; the sampling assembly comprises an initial water inlet detection component, a middle water inlet detection component and a tail water inlet detection component, wherein the initial water inlet detection component, the middle water inlet detection component and the tail water inlet detection component jointly act on water quality detection. The problem of prior art can't carry out the high-efficient detection of white turbid component in the fish bowl is solved in this application.

Description

Method for detecting white and turbid water quality in fish tank

Technical Field

The invention relates to the technical field of water area impurity detection, in particular to a dynamic detection device and a detection method for white and turbid water quality in a fish tank.

Background

Water is a source of life, people can not boil in life and production activities, the quality of drinking water is closely related to the health of people, and for animals, fish is also important to the dependence of water. Along with the development of social economy, scientific progress and improvement of the living standard of people, the requirement of people on the water quality of drinking water is continuously improved, the water quality standard of the drinking water is correspondingly continuously developed and improved, and the environment for the life of fishes also needs to be correspondingly improved and improved.

In the prior art, generally, in order to ensure rationalization of key indexes such as acid, alkali, ammonia nitrogen and nitrite in a fish tank environment and timely detect the content of components after water quality is turbid, water in the fish tank is replaced and a simple water circulation generator is installed, so that a certain improvement effect can be achieved, but impurity components in the fish tank cannot be effectively detected, targeted cleaning can be performed, and the improvement efficiency of the water quality in the fish tank can be improved.

Disclosure of Invention

The invention aims to provide a dynamic detection device and a detection method for the quality of turbid and white water in a fish tank, and solve the problem that the prior art cannot detect the turbid and white components in the fish tank efficiently.

The purpose of the invention is realized by the following technical scheme that the device comprises a device body, wherein a shell of the device body is coated with waterproof paint, and a plurality of groups of fluctuation sensors are arranged at intervals on the periphery of the shell; the sampling assembly is embedded in the device body and is detachably connected with the sampling assembly; a pre-configuration component in signal connection with the sampling component; the analysis component is in data connection with the pre-configuration component and is configured to analyze data information transmitted by the pre-configuration component; the sampling assembly comprises an initial water inlet detection component, a middle water inlet detection component and an end water inlet detection component, wherein the initial water inlet detection component, the middle water inlet detection component and the end water inlet detection component jointly act on water quality detection.

It should be noted that, prior art is when carrying out water quality protection, mainly carry out the whole change of quality of water, if not change, can only carry out simple water quality circulation, applicant and friend are in the discussion at ordinary times and the observation of actual life, an idea has emerged, if can carry out efficient detection and discernment, so can effectively reduce the replacement cost of fish bowl internal water, also can carry out higher corresponding quality of water detection and change or the pertinence of quality of water filters simultaneously, the applicant is in view of this, the defect of prior art device has been studied, the dynamic verification device who has developed this application detects, the thought of segmentation detection has been added, the comprehensive coverage that has guaranteed different aspect quality of water detects, guarantee effective and accurate of testing result.

The fish tank is characterized in that organic matter sensors are arranged in the initial water inlet detection part at intervals and used for detecting and transmitting impurity components in water in real time, and a microorganism attachment is arranged in the middle water inlet detection part and used for detecting microorganism impurities in the fish tank in real time.

It should be noted that, the detection device is arranged at each section, so that the detection result can be ensured to be more accurate, the detection inaccuracy caused by the covering of the detection object can be avoided, and meanwhile, according to the water quality in the fish tank, the applicant respectively sets the detection of impurities, microorganisms and organic matters, so that the classification detection of the impurities in the fish tank can be carried out, the pertinence of the water quality pollution result is improved, the reason of the water quality pollution can be found more quickly, and the later-stage cleaning and replacement are facilitated.

And an acid-base detection piece is arranged in the end-section water inlet detection component and is configured for detecting the acid-base value within a depth range, wherein the depth range is from the surface of the fish tank liquid to 15cm below the surface of the liquid.

The applicant sets acid-base detection according to the actual fish tank environment, and aims to improve the intelligent comprehensiveness of detection, ensure that key data in the fish tank can be efficiently identified and recorded, and improve the specific water quality condition.

The analysis component comprises: the device comprises a thermal analysis component, a temperature sensor and a temperature sensor, wherein a multi-stage temperature sensing detector is arranged in the thermal analysis component; a particle impurity density analyzing part in which density detectors for different particle diameters are preset; the surface-fallen object analysis component is internally and electrically connected with a plurality of groups of attachment detection plates, and the attachment detection plates are uniformly distributed with covering sensors at intervals; the thermal analysis component, the particle impurity density analysis component, and the body surface slough analysis component are in data connection and connected from top to bottom within the device body.

It should be noted that by arranging the above components, particles, surface falling objects and temperature changes which are easy to be ignored in the fish tank can be comprehensively and delicately detected, wherein the white turbidity phenomenon of the fish tank can be directly influenced by the temperature and the impurity particles, if the intelligent real-time detection can be carried out on the white turbidity phenomenon, the generation of the white turbidity phenomenon can be further determined inevitably, and meanwhile, the generation of the white turbidity phenomenon can be pertinently and quickly slowed down.

The provisioning component includes: the data identification module analyzes and records external data in real time; the comparison identification module receives the identification signal transmitted by the data identification module in real time and performs preset comparison; the early warning signal module is in signal connection with the comparison identification module and is used for carrying out early warning judgment on data from the comparison identification module; the data identification module, the comparison identification module and the early warning signal module are sequentially in data connection.

It should be noted that the preconfigured components are arranged to increase the accuracy of data, and in actual operation, usually, in order to detect the impurity content of the water quality of the fish tank quickly, a one-step inclusion method is adopted, so that part of impurity information can be obtained by counterstaining, but a judgment error inevitably occurs, and thus an error of a subsequent processing method is very likely to occur, and in severe cases, fish death is caused.

In another aspect of the invention, the fish tank white and turbid water quality detection method comprises the following steps: slowly placing a dynamic detection device into a fish tank to be detected, wherein the detection device is kept in a vertical state in the placing process; rotating the dynamic detection device by taking the position where the device is placed as an original point, wherein in the rotating process, water flow can strike the fluctuation sensor, and then a driving signal is sent out and transmitted to the sampling assembly; after the sampling assembly acquires the signals, the initial water inlet detection part, the middle water inlet detection part and the final water inlet detection part in the sampling assembly acquire the signals, and water sample detection operation is carried out successively; transmitting relevant data generated in the detection operation into the pre-configuration assembly, reading the data preferentially by a data identification module in the pre-configuration assembly, and comparing the read data with preset parameters in a comparison identification module to obtain a comparison difference value; transmitting the comparison difference data to an early warning signal module, and performing early warning alarm processing by the module according to the difference range, wherein when the measured value is greater than or equal to five percent of the preset value, an alarm signal is sent out, and when the measured value is less than or equal to five percent of the preset value, no alarm signal is sent out; analyzing the measured value exceeding the preset value, wherein the measured value sequentially passes through a thermal analysis component, a particle impurity density analysis component and a body surface fallen matter analysis component, and each component performs comparison analysis according to the difference range of the measured value and the preset value of each component to obtain the impurity type and content ratio of the turbid white component; and step seven, repeating the steps from the first step to the sixth step until the detection is finished.

It should be noted that by adopting the above steps, fine processing can be achieved, the accuracy of impurity detection can be ensured, meanwhile, the detection in the prior art can be distinguished, and the test detection result is more accurate.

Compared with the prior art, the invention has the following advantages and beneficial effects: the dynamic detection device provided by the application is added with the idea of sectional detection, so that comprehensive coverage detection of water quality of different layers is guaranteed, and the effectiveness and accuracy of detection results are guaranteed.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a flow chart of an implementation of the present invention.

Illustration of the drawings: 1-a sampling assembly; 2-a pre-configuration component; 3-an analysis component; 4-the device body.

Detailed Description

Referring to the accompanying drawings 1 and 2, the present embodiment provides a dynamic detection apparatus and a detection method for detecting cloudy water in a fish tank, which are mainly used to solve the problem that the prior art cannot perform efficient detection of cloudy components in a fish tank, and are already in practical use.

The application provides a device for dynamically detecting white and turbid water in a fish tank, which comprises a device body 4, a sampling component 1, a pre-configuration component 2 and an analysis component 3, wherein waterproof paint is laid on the shell of the device body 4, and a plurality of groups of fluctuation sensors are arranged at intervals on the periphery of the shell; the sampling assembly 1 is embedded in the device body 4 and is detachably connected with the sampling assembly 1; the pre-configuration component 2 is in signal connection with the sampling component 1; the analysis component 3 is in data connection with the pre-configuration component 2, and the analysis component 3 is configured to analyze data information transmitted by the pre-configuration component 2; the sampling assembly 1 comprises an initial water inlet detection component, a middle water inlet detection component and a tail water inlet detection component, wherein the initial water inlet detection component, the middle water inlet detection component and the tail water inlet detection component jointly act on water quality detection.

It should be noted that, people who hobbies fish culture are more and more at present, what is the most important is quality of water in the bathtub and bad to fish in the process of fish culture, this is also the thing that numerous fish culture enthusiasts pay close attention to most, the sampling subassembly 1 that this application set up realizes carrying out real-time supervision to different water level quality of water situation, realize on-the-spot sampling and the mode that can obtain the testing result on the spot through sampling subassembly 1, need send the sample that obtains of sampling to relevant unit and need wait for in the prior art and can obtain the testing result when many, the analysis subassembly 3 that this application set up can realize fish bowl water quality testing's high efficiency, solve the problem that can't carry out the high-efficient detection of white turbid component in the fish bowl among the prior art.

The fish tank is characterized in that organic matter sensors are arranged in the initial water inlet detection part at intervals and used for detecting and transmitting impurity components in water in real time, and a microorganism attachment is arranged in the middle water inlet detection part and used for detecting microorganism impurities in the fish tank in real time.

It should be noted that, when the water quality in the fish tank is judged to be good or bad, the sizes of the numerical values of acid-base, ammonia-nitrogen, nitrite and the like need to be combined at the same time, the organic matter is detected by the arranged organic matter sensor when the whole device just enters water, the accuracy of the monitoring result is ensured, meanwhile, the microorganism is captured by the microorganism attachment device, and the name, the variety and the like of the microorganism are detected, identified, transmitted and analyzed at the same time, through the analysis of the microorganism in the water, the data and the analysis stored in the whole device system, the judgment of which organic matter and microorganism influence are respectively contained in the acid-base, ammonia-nitrogen and nitrite in the water is carried out, specifically, different acid-base environments are different from the required acid-base environments, such as the immortal fish, the origin thereof is amazonon river basin in south america, and the water quality therein is generally turbid weak acid water, in the artificial propagation of the immortal fish, the weakly acidic water quality is required, for example, the pH value is 6.8 to 5.8, so that the effect of feeding the immortal fish is not good in northern areas with weak and slightly alkaline water quality, and the artificial propagation method is a great trouble for many northern fish-breeding enthusiasts. This application is through having organic matter and microorganism to the aquatic to carry out the analysis, and the quality of water condition to different water levels is recombined, can let the fish culture fan have corresponding change of carrying out quality of water, if increase the numerical value of certain reagent reduction certain microorganism in order to change acid-base or ammonia nitrogen or nitrite. On the other hand, worth detecting need use different measuring appliances to measure to pH value, ammonia nitrogen value and nitrite among the prior art, and the result after measuring needs what think goes the contrast, this application is through the measurement and the detection analysis with three data unite, can also intelligent give the suggestion that analysis result and processing improved simultaneously, solves the numerous problem of detection instrument among the prior art.

And an acid-base detection piece is arranged in the end-section water inlet detection component and is configured for detecting the acid-base value within a depth range, wherein the depth range is from the surface of the fish tank liquid to 15cm below the surface of the liquid.

It should be noted that the acid and alkali values in water can be monitored in real time through the arranged short sword detection piece, the accuracy of monitoring data is guaranteed through multiple detection, meanwhile, the conditions of the acid and alkali values of different water levels can be detected timely according to the position of the whole device in water, analysis, judgment and improvement suggestion are given through the whole device, the condition of water quality can be changed fastest and effectively, the depth of 15cm is selected in the preferred embodiment of the embodiment, when white and turbid water quality appears in a general fish tank, the water quality is concentrated at the position of 15cm, the vertical error is 1-2cm, and the water quality monitoring result in the area is accurate.

The analysis component 3 comprises a thermal analysis component, a particle impurity density analysis component and a body surface desquamation analysis component; a multi-stage temperature sensing detector is arranged in the thermal analysis component; density detectors aiming at different particle diameters are preset in the particle impurity density analysis component; a plurality of groups of attachment detection plates are electrically connected in the surface fallen object analysis component, and covering sensors are uniformly distributed on the attachment detection plates at intervals; the thermal analysis section, the particle impurity density analysis section, and the body surface exfoliated matter analysis section are connected in data and connected from top to bottom within the apparatus body 4.

It should be noted that the temperature of the water in the bathtub is detected in multiple stages and multiple times through the arranged multistage temperature sensor, the monitoring accuracy is guaranteed, meanwhile, the temperature conditions of different water levels can be detected, whether the water levels are suitable for growth of the fish is obtained through analysis of microorganisms and organic matters, the organic matters and the microorganisms are combined according to the temperature regulation, and the temperature, the organic matters and the microorganisms are regulated simultaneously or respectively, so that the water in the fish tank is most suitable for the survival of the movable fish therein. The device can also be combined with the conditions of temperature, acid, alkali, ammonia nitrogen and nitrite in the existing fish tank, analyze, judge and predict the influence of organic matters, microorganisms and granular substances in the existing fish tank on the water quality, give earliest and most timely guidance suggestions, and solve the problems that the development condition of the water quality cannot be effectively judged and predicted in the prior art and reasonable suggestions are given

The pre-configuration component 2 comprises a data identification module, a comparison identification module and an early warning signal module; the data identification module analyzes and records the external data in real time; the comparison identification module receives the identification signal transmitted by the data identification module in real time to carry out preset comparison; the early warning signal module is in signal connection with the comparison identification module and is used for carrying out early warning judgment on data from the comparison identification module; the data identification module, the comparison identification module and the early warning signal module are sequentially connected in a data mode.

The system comprises a primary water inlet detection component, a middle water inlet detection component, a tail water inlet detection component, an organic matter sensor, a microorganism attachment, an acid-base detection sheet, a multistage temperature sensing detector, a density detector and a covering sensor, wherein the primary water inlet detection component, the middle water inlet detection component, the tail water inlet detection component, the organic matter sensor, the microorganism attachment, the acid-base detection sheet, the multistage temperature sensing detector, the density detector and the covering sensor are identified and stored through the arranged data identification module, then data information is transmitted to an early warning signal module, comparison, analysis and prediction of data are realized through the signal early warning module, then the data which are compared, analyzed and predicted are transmitted to the early warning signal module, and real-time reflection of water quality is realized through the early warning signal module.

The application also provides a fish tank white and turbid water quality detection method, which comprises the following steps:

slowly placing a dynamic detection device into a fish tank to be detected, wherein the detection device is kept in a vertical state in the placing process;

rotating the dynamic detection device by taking the position where the device is placed as an original point, wherein in the rotating process, water flow can strike the fluctuation sensor, and then a driving signal is sent out and transmitted to the sampling assembly 1;

after the sampling assembly 1 acquires the signals, the water inlet detection part, the middle section water inlet detection part and the tail section water inlet detection part in the sampling assembly 1 acquire the signals, and water sample detection operation is carried out successively;

Transmitting related data generated in the detection operation into the pre-configuration component 2, reading the data preferentially by a data identification module in the pre-configuration component 2, and comparing the read data with preset parameters in a comparison identification module to obtain a comparison difference value;

transmitting the comparison difference data to an early warning signal module, and performing early warning alarm processing by the module according to the difference range, wherein when the measured value is greater than or equal to five percent of the preset value, an alarm signal is sent out, and when the measured value is less than or equal to five percent of the preset value, no alarm signal exists;

analyzing the measured value exceeding the preset value, wherein the measured value sequentially passes through a thermal analysis component, a particle impurity density analysis component and a body surface fallen matter analysis component, and each component performs comparison analysis according to the difference range of the measured value and the preset value of each component to obtain the impurity type and content ratio of the turbid white component;

and step seven, repeating the steps from the first step to the sixth step until the detection is finished.

It should be noted that, since the thermal analysis means, the particle impurity density analysis means, and the body surface fallen matter analysis section are connected from top to bottom within the apparatus main body 4, the entire apparatus needs to be kept in a vertical state all the time in order to ensure the accuracy of detection of different water level data of water quality. Because the fish is not in a static state all the time in the fish tank and is about to move continuously, the sanitation system can detect more data and detect the existence of various substances in the water of the fish in the moving process, so that the whole device is rotated to drive the water to move, and the detection is convenient. The device provided by the application is wirelessly connected with a terminal display and a terminal processor, and the terminal processor is used for realizing the work of data input, analysis, comparison, prediction, output, alarm prompt and the like, and displaying and feeding back to a user through the terminal display. On the other hand, the survival rate of the fish in the bathtub is guaranteed, when the detected value is greater than or equal to five percent of the preset value, an alarm is given, and the condition that the fish grows in unhealthy water quality, is sick and even dies finally can be avoided.

Comparing the prior art with the technique according to the invention, the following data were obtained:

according to the above table, the device and the method for dynamically detecting the quality of the turbid and white water in the fish tank have the advantages that the acid-base, ammonia nitrogen and nitrite of water in the bathtub are obviously improved, and the survival rate, the growth speed and the reproduction rate of fish are also obviously improved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (3)

1. The method for detecting the white and turbid water quality in the fish tank is characterized by comprising the following steps:

slowly placing the dynamic detection device into the fish tank to be detected, wherein the detection device is kept in a vertical state in the placing process;

rotating the dynamic detection device by taking the position where the device is placed as an original point, wherein in the rotating process, water flow can strike the fluctuation sensor, and then a driving signal is sent out and transmitted to the sampling assembly (1);

After the sampling assembly (1) acquires signals, acquiring signals by an initial water inflow detection part, a middle-section water inflow detection part and a final-section water inflow detection part in the sampling assembly (1), and performing water sample detection operation successively;

transmitting related data generated in the detection operation into the pre-configuration component (2), reading the data preferentially by a data identification module in the pre-configuration component (2), and comparing the read data with preset parameters in a comparison identification module to obtain a comparison difference value;

transmitting the comparison difference data to an early warning signal module, and performing early warning alarm processing by the module according to the difference range, wherein when the measured value is greater than or equal to five percent of the preset value, an alarm signal is sent out, and when the measured value is less than or equal to five percent of the preset value, no alarm signal exists;

analyzing the measured value exceeding the preset value, wherein the measured value sequentially passes through a heat analysis component, a particle impurity density analysis component and a body surface falling object analysis component, and each component performs comparison analysis according to the difference range of the measured value and the preset value of each component to obtain the impurity type and content ratio of the turbid white component;

Step seven, repeating the steps one to six until the detection is finished;

wherein, the dynamic detection device includes: the device comprises a device body (4), wherein waterproof paint is laid on a shell of the device body (4), and a plurality of groups of fluctuation sensors are arranged at intervals on the periphery of the shell;

the sampling assembly (1) is embedded in the device body (4) and is detachably connected with the device body (4);

a preconfiguration component (2), the preconfiguration component (2) being in signal connection with the sampling component (1); and

an analysis component (3), the analysis component (3) is in data connection with the pre-configuration component (2), and the analysis component (3) is configured to analyze data information transmitted by the pre-configuration component (2);

the sampling assembly (1) comprises an initial water inlet detection component, a middle water inlet detection component and a tail water inlet detection component, wherein the initial water inlet detection component, the middle water inlet detection component and the tail water inlet detection component jointly act on water quality detection; organic matter sensors are arranged in the initial water inlet detection part at intervals and used for detecting and transmitting impurity components in water in real time, and a microorganism attachment device is arranged in the middle water inlet detection part and used for detecting microorganism impurities in the fish tank in real time; and an acid-base detection piece is arranged in the tail-segment water inlet detection component and is configured for detecting the acid-base value within a depth range.

2. A method for detecting the quality of cloudy water contained in an aquarium according to claim 1 wherein said analysis module (3) comprises:

the device comprises a thermal analysis component, a temperature sensor and a temperature sensor, wherein a multi-stage temperature sensing detector is arranged in the thermal analysis component;

a particle impurity density analysis unit in which density detectors for different particle diameters are preset; and

the device comprises a body surface cast analysis component, a plurality of groups of attachment detection plates and a plurality of covering sensors, wherein the body surface cast analysis component is internally and electrically connected with the attachment detection plates;

the thermal analysis component, the particle impurity density analysis component and the body surface cast analysis component are connected in data and are connected from top to bottom in the device body (4).

3. The method for detecting the quality of the turbid water inside the aquarium according to claim 1, wherein the preconfiguration module (2) comprises:

the data identification module analyzes and records external data in real time;

the comparison identification module receives the identification signal transmitted by the data identification module in real time and performs preset comparison; and

the early warning signal module is in signal connection with the comparison identification module and is used for carrying out early warning judgment on data from the comparison identification module;

The data identification module, the comparison identification module and the early warning signal module are sequentially connected in a data mode.

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