CN110553870A - system and method for collecting, classifying and counting parasite eggs - Google Patents

Abstract

The invention belongs to the field of parasite egg detection, and discloses a system and a method for collecting, classifying and counting parasite eggs, wherein a sample processing module is used for processing samples by arranging a special sample stirring and mixing device; the sample injection module pumps the mixed sample to a detector; the flow rate control valve is arranged, so that the system can carry out stepless speed regulation to adapt to the accurate and efficient detection work of the detector on the sample; the microscopic examination module is used for acquiring data of a sample; the shunt valve is used for sub-packaging the sample in different collection bottles; the sample collection module changes the pipeline of the detected worm eggs and accurately collects the worm eggs in different collection bottles so as to facilitate the development of subsequent analysis work; and the software control module performs comparison analysis through the acquired database, and accurately counts and classifies parasite eggs in the sample. The invention can conveniently and quickly count, classify and collect parasite eggs accurately.

Description

system and method for collecting, classifying and counting parasite eggs

Technical Field

The invention belongs to the technical field of parasite egg detection, and particularly relates to a system and a method for collecting, classifying and counting parasite eggs.

Background

Currently, there are 3 main methods for detecting parasite eggs: smear, michaelis and swiss methods. The smear method is simple and easy to implement in the aspect of parasite egg detection, is suitable for detecting various parasite eggs and the like, but has low detection rate and can not be accurately quantified; the Mai's method has the qualitative and quantitative detection of the parasitosis of the small eggs in the aspect of the detection of the parasite eggs, but is only suitable for various eggs which can float by saturated saline water due to the influence of the factors such as room temperature, floating time and the like; the student method has the advantages that in the aspect of parasite egg detection, repeated or omitted counting of eggs is easy to generate; the methods have the common problem of long time consumption, if people with abundant experience want to accurately distinguish various worm eggs in excrement, people still need to identify the worm eggs by means of a map, the time consumption is long, the result is large in error, and the type judgment and the quantity measurement of various parasite eggs are seriously influenced.

In summary, the problems of the prior art are as follows:

The existing parasite egg collecting, classifying and counting system is inconvenient to collect parasite eggs, the method is long in time consumption, and the accuracy of classifying and counting is seriously reduced due to various factors such as experience in the judging process.

The difficulty of solving the technical problems is as follows:

the prior art device can accurately and efficiently collect, classify and count parasite eggs through a series of works by reasonably modifying and combining the device and special computer control software and a rich image database thereof.

The significance of solving the technical problems is as follows:

through the technical means, the method fundamentally eliminates the error estimation caused by artificial misjudgment and the systematic error caused by repeated counting and missing counting in the operation process on the classification counting of the parasite eggs and the larvae, has great significance, and can be applied to the fields of scientific research, clinical diagnosis and the like in the field of animal parasitology and even human parasitology.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a system and a method for collecting, classifying and counting parasite eggs.

The invention is realized in such a way that a system for collecting, classifying and counting parasite eggs is provided with:

The sample processing module is connected with the sample introduction module and is used for processing the sample by arranging a special sample stirring and mixing device;

The sample injection module is connected with the flow rate control valve and pumps the mixed sample to the detector;

the flow rate control valve is connected with the microscopic examination module, and the system can adjust the speed in a stepless manner by arranging the flow rate control valve so as to adapt to the accurate and efficient detection work of the detector on the sample;

The microscopic examination module is connected with the flow dividing valve and is used for acquiring data of the sample;

the shunt valve is connected with the sample collection module and is used for sub-packaging the sample in different collection bottles;

the sample collection module is used for carrying out pipeline change on the detected worm eggs and accurately collecting the worm eggs in different collection bottles so as to carry out subsequent analysis work, such as molecular biology research and the like;

The software control module is respectively connected with the sample processing module, the sample introduction module, the flow rate control valve, the microscopic examination module, the flow divider valve and the sample collection module and coordinates the normal operation of each module; meanwhile, the collected database is used for carrying out comparison analysis, and parasite eggs in the sample are accurately counted and classified.

The invention also aims to provide a method for collecting, classifying and counting parasite eggs, which specifically comprises the following steps:

Step one, arranging a special sample stirring and mixing system to process a sample;

pumping the mixed sample to a detector, wherein the system can adjust the speed in a stepless manner so as to adapt to the accurate and efficient detection work of the detector on the sample;

Thirdly, the software control system performs comparison analysis through the collected database, and accurately counts and accurately classifies parasite eggs in the sample;

Fourthly, changing the pipeline of the detected worm eggs and accurately collecting the worm eggs in different collecting bottles so as to facilitate the development of subsequent analysis work, such as molecular biological research and the like;

and step five, fully washing the sample processing system, the sample introduction system, the flow rate control valve, the microscopic examination system, the shunt valve and the auxiliary pipeline systems thereof before the sample is replaced so as to ensure the accuracy of the sample detection.

In summary, the advantages and positive effects of the invention are:

In the aspects of parasite egg collection, classification and counting, the invention can conveniently and quickly count, classify and collect parasite eggs accurately.

Drawings

FIG. 1 is a schematic structural diagram of a system for collecting, classifying and counting parasite eggs according to an embodiment of the present invention.

FIG. 2 is a flow chart of a method for collecting, classifying and counting eggs of parasite according to an embodiment of the present invention.

in the figure: 1. a sample processing module; 2. a sample introduction module; 3. a flow rate control valve; 4. a microscopic examination module; 5. a flow divider valve; 6. a sample collection module; 7. a software control module; 8. a pipeline flushing module.

Detailed Description

in order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical solution of the present invention is described in detail below with reference to the accompanying drawings.

As shown in FIG. 1, the system for collecting, classifying and counting parasite eggs provided by the embodiment of the invention comprises:

And the sample processing module 1 is connected with the sample injection module 2 and is used for processing the sample by arranging a special sample stirring and mixing device.

and the sample injection module 2 is connected with the flow rate control valve 3 and pumps the mixed sample to the detector.

the flow rate control valve 3 is connected with the microscopic examination module 4, and the system can carry out stepless speed regulation by being provided with the flow rate control valve 3 so as to adapt to the accurate and efficient detection work of the detector on the sample.

and the microscopic examination module 4 is connected with the flow dividing valve 5 and is used for acquiring data of the sample.

and the flow dividing valve 5 is connected with the sample collecting module 6, and the samples are subpackaged in different collecting bottles by utilizing the flow dividing valve.

And the sample collection module 6 is used for carrying out pipeline change on the detected worm eggs and accurately collecting the worm eggs in different collection bottles so as to carry out subsequent analysis work, such as molecular biology research and the like.

The software control module 7 is respectively connected with the sample processing module 1, the sample introduction module 2, the flow rate control valve 3, the microscopic examination module 4, the flow divider valve 5, the sample collection module 6 and the pipeline flushing module 8, and coordinates normal operation of each module; meanwhile, the collected database is used for carrying out comparison analysis, and parasite eggs in the sample are accurately counted and classified.

As shown in fig. 2, the method for collecting, classifying and counting parasite eggs provided by the embodiment of the present invention specifically includes:

S101: a special sample stirring and mixing system is arranged to process the sample;

S102: the mixed sample is pumped to a detector, and the system can adjust the speed in a stepless way so as to adapt to the accurate and efficient detection work of the detector on the sample;

S103: the software control system performs comparison analysis through the collected database, and accurately counts and accurately classifies parasite eggs in the sample;

s104: carrying out pipeline change on the detected worm eggs and accurately collecting the worm eggs in different collecting bottles so as to carry out subsequent analysis work, such as molecular biological research and the like;

s105: before the sample is replaced, the sample processing system, the sample introduction system, the flow rate control valve, the microscopic examination system, the shunt valve and the auxiliary pipeline system thereof are comprehensively flushed so as to ensure the accuracy of the sample detection.

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 invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (2)

1. a system for collecting, classifying and counting parasite eggs, wherein the system for collecting, classifying and counting parasite eggs is provided with:

the sample processing module is connected with the sample introduction module and is used for processing the sample by arranging a special sample stirring and mixing device;

The sample injection module is connected with the flow rate control valve and pumps the mixed sample to the detector;

the flow rate control valve is connected with the microscopic examination module, and the system can adjust the speed in a stepless manner by arranging the flow rate control valve so as to adapt to the accurate and efficient detection work of the detector on the sample;

The microscopic examination module is connected with the flow dividing valve and is used for acquiring data of the sample;

the shunt valve is connected with the sample collection module and is used for sub-packaging the sample in different collection bottles;

the sample collection module is used for carrying out pipeline change on the detected worm eggs and accurately collecting the worm eggs in different collection bottles so as to carry out subsequent analysis work, such as molecular biology research and the like;

The software control module is respectively connected with the sample processing module, the sample introduction module, the flow rate control valve, the microscopic examination module, the flow divider valve and the sample collection module and coordinates the normal operation of each module; meanwhile, the collected database is used for carrying out comparison analysis, and parasite eggs in the sample are accurately counted and classified.

2. a method of parasite egg collection, classification, and enumeration for a system of parasite egg collection, classification, and enumeration as claimed in claim 1, wherein the method of parasite egg collection, classification, and enumeration specifically comprises:

Step one, arranging a special sample stirring and mixing system to process a sample;

Pumping the mixed sample to a detector, wherein the system can adjust the speed in a stepless manner so as to adapt to the accurate and efficient detection work of the detector on the sample;

Thirdly, the software control system performs comparison analysis through the collected database, and accurately counts and accurately classifies parasite eggs in the sample;

Fourthly, changing the pipeline of the detected worm eggs and accurately collecting the worm eggs in different collecting bottles so as to facilitate the development of subsequent analysis work, such as molecular biological research and the like;

And step five, fully washing the sample processing system, the sample introduction system, the flow rate control valve, the microscopic examination system, the shunt valve and the auxiliary pipeline systems thereof before the sample is replaced so as to ensure the accuracy of the sample detection.