阅读说明：本技术 一种用于感染监测的分析系统 (Analysis system for infection monitoring ) 是由 何润东 于 2020-06-03 设计创作，主要内容包括：本发明公开了一种用于感染监测的分析系统,包括样本处理模块、培养仪、接种仪、鉴定仪、控制器、显示模块、采集分析单元、判定处理模块、存储模块、三维夹爪、位置监测模块、流水线驱动单元、回收单元和流水线；本发明通过样本处理模块获取得到各个房间内的样本信息,并将样本放在带有识别标签的取样杯之中,之后通过控制器和对应的位置监测模块、三维夹爪和流水线驱动单元,能够在取样杯中的样本依次经历培养、接种和鉴定这些步骤,实现了培养、接种和鉴定流程的自动化,而且获取得到的结果直接借助显示模块进行显示,便于观看,同时借助存储模块留下鉴定记录,便于日后查询；本发明简单有效,且易于实用。(The invention discloses an analysis system for infection monitoring, which comprises a sample processing module, a culture instrument, an inoculation instrument, an identification instrument, a controller, a display module, an acquisition and analysis unit, a judgment and processing module, a storage module, a three-dimensional clamping jaw, a position monitoring module, a production line driving unit, a recovery unit and a production line, wherein the sample processing module is connected with the culture instrument; according to the invention, the sample information in each room is obtained through the sample processing module, the sample is placed in the sampling cup with the identification label, then the sample in the sampling cup can be subjected to the steps of culturing, inoculating and identifying in sequence through the controller, the corresponding position monitoring module, the three-dimensional clamping jaw and the assembly line driving unit, so that the automation of the culturing, inoculating and identifying processes is realized, the obtained result is directly displayed by the aid of the display module and is convenient to watch, and the identification record is left by the aid of the storage module, so that the later query is facilitated; the invention is simple, effective and easy to use.)

1. An analysis system for infection monitoring is characterized by comprising a sample processing module, a culture instrument, an inoculation instrument, an identification instrument, a controller, a display module, an acquisition and analysis unit, a judgment and processing module, a storage module, a three-dimensional clamping jaw, a position monitoring module, a production line driving unit, a recovery unit and a production line;

the assembly line sequentially passes through a sample processing module, a culture instrument, an inoculation instrument and an identification instrument;

the system comprises a sample processing module, a sample collecting module and a data processing module, wherein the sample processing module is used for collecting a sanitary sample of each room in a hospital by means of a sampling cup, the sanitary sample is collected by test paper in each room, the sampling cup is provided with an identification label, the identification label is provided with attribution information of rooms, and the attribution information is used for identifying the specific room sample; placing the sampling cup on the production line after sampling is completed; the position monitoring module is used for detecting the position of the sampling cup on the production line in real time; the recovery unit is used for recovering the sampling cup on the production line;

the controller is used for combining the culture instrument, the inoculation instrument, the identification instrument, the position monitoring module, the three-dimensional clamping jaw, the assembly line driving unit and the assembly line to carry out infection monitoring steps, and the method comprises the following specific steps:

the method comprises the following steps: utilize position monitoring module to train the signal to the controller transmission when detecting that the sampling cup reaches cultivateing appearance position department, the controller gets into when receiving the cultivation signal of position monitoring module transmission and cultivates the process, and concrete process is:

s1: firstly, a controller is used for transmitting a pause signal to a pipeline driving unit, and the pipeline driving unit drives and controls a pipeline to stop acting;

s2: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the assembly line into the culture instrument, the culture instrument is used for quickly culturing microorganisms in the sampling cup, and a grabbing signal is transmitted to the controller after the culture is finished;

s3: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the culture instrument to the production line when receiving a grabbing signal transmitted by the culture instrument; finishing the culture operation of the current sampling cup; meanwhile, the controller transmits a starting signal to the pipeline driving unit;

s4: the pipeline driving unit drives the pipeline to start to act;

step two: the position monitoring module transmits an inoculation signal to the controller when detecting that the sampling cup reaches the position of the inoculation instrument, the controller receives the inoculation signal transmitted by the position monitoring module and automatically enters an inoculation test, and the sampling cup is clamped on the production line again after the inoculation test is finished;

step three: the position monitoring module transmits an identification signal to the controller when detecting that the sampling cup reaches the position of the identification instrument, and the controller enters an identification process when receiving the identification signal transmitted by the position monitoring module;

the identification instrument can also automatically identify the identification label on the sampling cup when carrying out identification operation, and obtain the attribution information of the room where the sampling cup is located;

the identification instrument is further used for acquiring identification result information after the identification of the sanitary sample in the sampling cup is finished, the identification instrument is used for transmitting the result information and the corresponding attribution information to the controller, the controller transmits the result information and the corresponding attribution information to the display module for real-time display, and the controller transmits the result information and the corresponding attribution information to the storage module for real-time storage;

the collecting and analyzing unit is used for collecting sample information and identification result information obtained by the identification instrument, carrying out sample analysis operation on the sample information and the identification result information to obtain an average infection volume ratio, an infection ratio around a bed, an infection ratio around a window, an infection ratio around a room, a toilet infection ratio and a kitchen infection ratio, and transmitting the average infection volume ratio, the infection ratio around the bed, the window, the room corner, the toilet infection ratio and the kitchen infection ratio to the judging and processing unit;

the judgment processing unit is used for judging and processing the average infection volume ratio, the infection ratio around a bed, the infection ratio around a window, the infection ratio in the corner of a room, the infection ratio in a toilet and the infection ratio in a kitchen to obtain a processing signal and sending the processing signal to the display module.

2. The assay system for infection monitoring according to claim 1, wherein the inoculation test in step two is as follows:

k1: the controller transmits a pause signal to the assembly line driving unit when receiving the inoculation signal transmitted by the position monitoring module, and the assembly line driving unit drives and controls the assembly line to stop acting;

k2: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the assembly line to the inoculation instrument for inoculation operation, and the inoculation instrument transmits a grabbing signal to the controller after the inoculation operation is finished;

k3: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the inoculation instrument to the production line when receiving a grabbing signal transmitted by the inoculation instrument; finishing the inoculation operation of the current sampling cup; meanwhile, the controller transmits a starting signal to the pipeline driving unit;

k4: the pipeline driving unit drives the pipeline to start action.

3. An assay system for infection monitoring according to claim 1 wherein the identification process in step three is embodied as:

h1: the controller transmits a pause signal to the assembly line driving unit when receiving the identification signal transmitted by the position monitoring module, and the assembly line driving unit drives and controls the assembly line to stop acting;

h2: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the assembly line into the identification instrument for identification operation, and a grabbing signal is transmitted to the controller after the identification operation is finished;

h3: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the identification instrument to the production line when receiving a grabbing signal transmitted by the identification instrument; finishing the identification operation of the current sampling cup; meanwhile, the controller transmits a starting signal to the pipeline driving unit;

h4: the assembly line drive unit drives the assembly line to start to act, and the sampling cup is conveyed to the sampling cup recovery unit.

4. The system of claim 1, wherein the incubator is configured to incubate microorganisms in the sample cup to promote rapid growth of the microorganisms in the incubator, and the inoculator is configured to perform an inoculation test on the microorganisms in the incubator.

5. The analysis system for infection monitoring according to claim 1, wherein the specific operation process of the sample analysis operation is:

c1: obtaining sample information and identification result information, and respectively carrying out sample sorting and marking on the sample information and the identification result information, wherein the method specifically comprises the following steps:

for the sample information: b 1: identifying sample information, setting different name data for sample data from different rooms, and marking the sample name data as YMi, b 2: identifying sample information, setting the collection position of the sample therein as sample position data, and calibrating it as YWi, b 3: identifying sample information, sizing the sample area it acquired as sample volume data, and labeling the sample volume data as YTi, and i ═ 1, 2, 3.. n 1;

for the authentication result information: : a 1: obtaining identification result information, setting the name of a sample monitored in the identification result information as detection sample name data, and marking the detection sample name data as ymi, a 2: obtaining identification result information, setting the infection result of the sample in the period as detection result data, and calibrating the detection result data as JJi, a 3: acquiring identification result information, setting the infection area in the period as the infection area of the sample, and marking the infection area as GMi, wherein i is 1, 2, 3.. n 1;

c2: matching the detection sample data in the identification result information with the sample name data in the sample information to obtain detection sample data corresponding to the sample name data, and extracting corresponding sample position data, sample volume data, detection result data and sample infection area;

c3: the detection result is divided into infection and non-infection, the infection is marked as 1, the non-infection is marked as 0, the detection result data is identified and is classified and marked according to the infection and the non-infection, the corresponding sample volume data and the sample infection area are identified according to the infection sample, and the sample volume data and the sample infection area are brought into a calculation formula together:wherein, Vi_{Feeling of}Expressed as the proportion of the infected volume of the sample, and the proportion of the infection for the different samples was taken into the calculation:in which PVi_{Feeling of}Expressed as mean infected volume per infected sample;

c4: acquiring sample position data of infection and non-infection, and classifying the sample position data according to the position data, wherein the sample position data specifically comprises the following steps: dividing the position data into the periphery of a bed, the periphery of a window, the corners of a room, a toilet, a kitchen and the like in sequence, extracting name data of detection samples with infection and without infection, identifying the infection conditions of different room samples in the positions corresponding to the position data, calculating the total infection amount of the positions of the periphery of the bed, the periphery of the window, the corners of the room, the toilet, the kitchen and the like according to a summation calculation formula, bringing the total infection amount into the calculation formula with the infection amount of the periphery of the bed, the periphery of the window, the corners of the room, the toilet and the kitchen respectively, and calculating the infection ratio of the periphery of the bed, the periphery of the window, the corners of the;

c5: the sample infection volume fraction, the average infection volume fraction, the bed periphery infection fraction, the window periphery infection fraction, the room corner infection fraction, the toilet infection fraction, and the kitchen infection fraction are transmitted together to the determination processing unit.

6. An analytical system for infection monitoring as claimed in claim 1, wherein the specific course of the decision processing operation is:

g1: acquiring the infection ratio around a bed, the infection ratio around a window, the infection ratio in a room corner, the infection ratio in a toilet and the infection ratio in a kitchen, sequencing the infection ratios from large to small, and carrying out integral marking on the infection ratios in sequence, wherein the specific expression is as follows: recording the data arranged at the first position as Rj integrals, recording the data arranged at the second position as Rj-1 integrals, recording the data arranged at the nth position as Rj- (n-1) integrals, calculating the difference value between the infected volume ratio of the sample and the average infected volume ratio, sorting the difference values, and sequentially marking the sorted difference values with integral marks Ej, Ej-1 and … … Ej- (n-1);

g2: extracting the position data of the infected sample in the G1, and performing total integral calculation on the position data, namely adding the difference integral corresponding to the position data of the infected sample and the corresponding proportion sorting integral to obtain the infection integral of each position in total, and sorting the infection total integral from large to small;

g3: and selecting sample name data corresponding to the first three positions, marking the sample name data as a key solution position, and generating a processing signal.

Technical Field

The invention belongs to the field of medical treatment, relates to an infection monitoring technology, and particularly relates to an analysis system for infection monitoring.

Background

The hospital refers to a medical institution which receives supervision of all social circles, provides medical care services and mainly aims at rescuing and supporting injuries. The service objects include not only patients and wounded persons but also healthy persons in a specific physiological state, such as pregnant women, lying-in women, newborn babies, and the like, and fully healthy persons, such as persons who come to a hospital for physical examination or oral cavity cleaning.

Hospitals serve as a public production facility, and due to the particularity of the environment, the hospitals are often easy to infect or contact with bacteria, the bacteria can cause great damage to human bodies and even comprise offices, and therefore the sanitary infection in the rooms needs to be monitored irregularly; in order to solve the above-mentioned drawbacks, a technical solution is now provided.

Disclosure of Invention

The invention aims to provide an analysis system for infection monitoring, which can obtain sample information in each room through a sample processing module, place the sample in a sampling cup with an identification label, and perform the steps of culturing, inoculating and identifying the sample in the sampling cup in sequence under the cooperation of a position monitoring module, a three-dimensional clamping jaw and a production line driving unit, thereby realizing the automation of the culturing, inoculating and identifying processes, solving the problem that an automatic process cannot be set for infection monitoring in the prior art, facilitating the observation, and simultaneously leaving an identifying record by a storage module for the convenience of future inquiry; the invention is simple, effective and easy to use, and how to collect the relevant data after sample collection and detection through the arrangement of the collection and analysis unit, and carry out infection position and infection ratio analysis on the collected relevant data, the judgment and processing unit carries out infection sequencing according to the infection position and the infection ratio, determines the preferential protection position, and sends out a processing signal, thereby solving the problem that the accurate judgment can not be carried out according to the analysis result in the prior art, increasing the accuracy of the sample analysis result, carrying out correct judgment on the analysis result, saving the time of artificial analysis, and improving the working efficiency.

The purpose of the invention can be realized by the following technical scheme:

an analysis system for infection monitoring comprises a sample processing module, a culture instrument, an inoculation instrument, an identification instrument, a controller, a display module, an acquisition and analysis unit, a judgment and processing module, a storage module, a three-dimensional clamping jaw, a position monitoring module, a production line driving unit, a recovery unit and a production line;

the assembly line sequentially passes through a sample processing module, a culture instrument, an inoculation instrument and an identification instrument;

the system comprises a sample processing module, a sample collecting module and a data processing module, wherein the sample processing module is used for collecting a sanitary sample of each room in a hospital by means of a sampling cup, the sanitary sample is collected by test paper in each room, the sampling cup is provided with an identification label, the identification label is provided with attribution information of rooms, and the attribution information is used for identifying the specific room sample; placing the sampling cup on the production line after sampling is completed; the position monitoring module is used for detecting the position of the sampling cup on the production line in real time; the recovery unit is used for recovering the sampling cup on the production line;

the controller is used for combining the culture instrument, the inoculation instrument, the identification instrument, the position monitoring module, the three-dimensional clamping jaw, the assembly line driving unit and the assembly line to carry out infection monitoring steps, and the method comprises the following specific steps:

the method comprises the following steps: utilize position monitoring module to train the signal to the controller transmission when detecting that the sampling cup reaches cultivateing appearance position department, the controller gets into when receiving the cultivation signal of position monitoring module transmission and cultivates the process, and concrete process is:

s1: firstly, a controller is used for transmitting a pause signal to a pipeline driving unit, and the pipeline driving unit drives and controls a pipeline to stop acting;

s2: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the assembly line into the culture instrument, the culture instrument is used for quickly culturing microorganisms in the sampling cup, and a grabbing signal is transmitted to the controller after the culture is finished;

s3: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the culture instrument to the production line when receiving a grabbing signal transmitted by the culture instrument; finishing the culture operation of the current sampling cup; meanwhile, the controller transmits a starting signal to the pipeline driving unit;

s4: the pipeline driving unit drives the pipeline to start to act;

step two: the position monitoring module transmits an inoculation signal to the controller when detecting that the sampling cup reaches the position of the inoculation instrument, the controller receives the inoculation signal transmitted by the position monitoring module and automatically enters an inoculation test, and the sampling cup is clamped on the production line again after the inoculation test is finished;

step three: the position monitoring module transmits an identification signal to the controller when detecting that the sampling cup reaches the position of the identification instrument, and the controller enters an identification process when receiving the identification signal transmitted by the position monitoring module;

the identification instrument can also automatically identify the identification label on the sampling cup when carrying out identification operation, and obtain the attribution information of the room where the sampling cup is located;

the identification instrument is further used for acquiring identification result information after the identification of the sanitary sample in the sampling cup is finished, the identification instrument is used for transmitting the result information and the corresponding attribution information to the controller, the controller transmits the result information and the corresponding attribution information to the display module for real-time display, and the controller transmits the result information and the corresponding attribution information to the storage module for real-time storage;

the collecting and analyzing unit is used for collecting sample information and identification result information obtained by the identification instrument, carrying out sample analysis operation on the sample information and the identification result information to obtain an average infection volume ratio, an infection ratio around a bed, an infection ratio around a window, an infection ratio around a room, a sanitary infection ratio and a kitchen infection ratio, and transmitting the average infection volume ratio, the infection ratio around the bed, the infection ratio around the window, the infection ratio around the room, the sanitary infection ratio and the kitchen infection ratio to the judgment and processing unit;

the judgment processing unit is used for judging and processing the average infection volume ratio, the infection ratio around a bed, the infection ratio around a window, the infection ratio in the corner of a room, the infection ratio in a toilet and the infection ratio in a kitchen to obtain a processing signal and sending the processing signal to the display module.

Further, the inoculation test in the second step is specifically as follows:

k1: the controller transmits a pause signal to the assembly line driving unit when receiving the inoculation signal transmitted by the position monitoring module, and the assembly line driving unit drives and controls the assembly line to stop acting;

k2: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the assembly line to the inoculation instrument for inoculation operation, and the inoculation instrument transmits a grabbing signal to the controller after the inoculation operation is finished;

k3: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the inoculation instrument to the production line when receiving a grabbing signal transmitted by the inoculation instrument; finishing the inoculation operation of the current sampling cup; meanwhile, the controller transmits a starting signal to the pipeline driving unit;

k4: the pipeline driving unit drives the pipeline to start action.

Further, the identification process in the third step is specifically as follows:

h1: the controller transmits a pause signal to the assembly line driving unit when receiving the identification signal transmitted by the position monitoring module, and the assembly line driving unit drives and controls the assembly line to stop acting;

h2: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the assembly line into the identification instrument for identification operation, and a grabbing signal is transmitted to the controller after the identification operation is finished;

h3: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the identification instrument to the production line when receiving a grabbing signal transmitted by the identification instrument; finishing the identification operation of the current sampling cup; meanwhile, the controller transmits a starting signal to the pipeline driving unit;

h4: the assembly line drive unit drives the assembly line to start to act, and the sampling cup is conveyed to the sampling cup recovery unit.

Further, the culture apparatus is used for culturing the microorganisms in the sampling cup to promote the microorganisms to rapidly grow in the culture apparatus, and the inoculator is used for performing inoculation test on the microorganisms in the culture apparatus.

Further, the specific operation process of the sample analysis operation is as follows:

c1: obtaining sample information and identification result information, and respectively carrying out sample sorting and marking on the sample information and the identification result information, wherein the method specifically comprises the following steps:

for the sample information: b 1: identifying sample information, setting different name data for sample data from different rooms, and marking the sample name data as YMi, b 2: identifying sample information, setting the collection position of the sample therein as sample position data, and calibrating it as YWi, b 3: identifying sample information, sizing the sample area it acquired as sample volume data, and labeling the sample volume data as YTi, and i ═ 1, 2, 3.. n 1;

for the authentication result information: a 1: obtaining identification result information, setting the name of a sample monitored in the identification result information as detection sample name data, and marking the detection sample name data as ymi, a 2: obtaining identification result information, setting the infection result of the sample in the period as detection result data, and calibrating the detection result data as JJi, a 3: acquiring identification result information, setting the infection area in the period as the infection area of the sample, and marking the infection area as GMi, wherein i is 1, 2, 3.. n 1;

c2: matching the detection sample data in the identification result information with the sample name data in the sample information to obtain detection sample data corresponding to the sample name data, and extracting corresponding sample position data, sample volume data, detection result data and sample infection area;

c3: the detection result is divided into infection and non-infection, the infection is marked as 1, the non-infection is marked as 0, the detection result data is identified and is classified and marked according to the infection and the non-infection, the corresponding sample volume data and the sample infection area are identified according to the infection sample, and the sample volume data and the sample infection area are brought into a calculation formula together:wherein, Vi_{Feeling of}Expressed as the proportion of the infected volume of the sample, and the proportion of the infection for the different samples was taken into the calculation:whereinExpressed as mean infected volume per infected sample;

c4: acquiring sample position data of infection and non-infection, and classifying the sample position data according to the position data, wherein the sample position data specifically comprises the following steps: dividing the position data into the periphery of a bed, the periphery of a window, the corners of a room, a toilet, a kitchen and the like in sequence, extracting name data of detection samples with infection and without infection, identifying the infection conditions of different room samples in the positions corresponding to the position data, calculating the total infection amount of the positions of the periphery of the bed, the periphery of the window, the corners of the room, the toilet, the kitchen and the like according to a summation calculation formula, bringing the total infection amount into the calculation formula with the infection amount of the periphery of the bed, the periphery of the window, the corners of the room, the toilet and the kitchen respectively, and calculating the infection ratio of the periphery of the bed, the periphery of the window, the corners of the;

c5: transmitting the sample infection volume ratio, the average infection volume ratio, the infection ratio around the bed, the infection ratio around the window, the infection ratio around the room corner, the infection ratio in the toilet and the infection ratio in the kitchen to the judgment processing unit;

the specific operation process of the further judgment processing operation is as follows:

g1: acquiring the infection ratio around a bed, the infection ratio around a window, the infection ratio in a room corner, the infection ratio in a toilet and the infection ratio in a kitchen, sequencing the infection ratios from large to small, and carrying out integral marking on the infection ratios in sequence, wherein the specific expression is as follows: recording the data arranged at the first position as Rj integrals, recording the data arranged at the second position as Rj-1 integrals, recording the data arranged at the nth position as Rj- (n-1) integrals, calculating the difference value between the infected volume ratio of the sample and the average infected volume ratio, sequencing the difference values, and sequentially marking the sequenced difference values as Ej, Ej-1 and.

G2: extracting the position data of the infected sample in the G1, and performing total integral calculation on the position data, namely adding the difference integral corresponding to the position data of the infected sample and the corresponding proportion sorting integral to obtain the infection integral of each position in total, and sorting the infection total integral from large to small;

g3: and selecting sample name data corresponding to the first three positions, marking the sample name data as a key solution position, and generating a processing signal.

The invention has the beneficial effects that: according to the invention, the sample information in each room is obtained through the sample processing module, the sample is placed in the sampling cup with the identification label, then the sample in the sampling cup can be subjected to the steps of culturing, inoculating and identifying in sequence through the controller, the corresponding position monitoring module, the three-dimensional clamping jaw and the assembly line driving unit, so that the automation of the culturing, inoculating and identifying processes is realized, the obtained result is directly displayed by the aid of the display module and is convenient to watch, and the identification record is left by the aid of the storage module, so that the later query is facilitated; the invention is simple, effective and easy to use.

Through the setting of the acquisition and analysis unit, the relevant data after the sample is acquired and detected is acquired, the acquired relevant data is subjected to infection position and infection ratio analysis, the judgment and processing unit carries out infection sequencing according to the infection position and the infection ratio, the priority protection position is determined, a processing signal is sent out, the accuracy of a sample analysis result is improved, the analysis result is correctly judged, the time of manual analysis is saved, and the working efficiency is improved.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a block diagram of the system of the present invention.

Detailed Description

As shown in fig. 1, an analysis system for infection monitoring includes a sample processing module, a culture apparatus, an inoculation apparatus, an identification apparatus, a controller, a display module, an acquisition and analysis unit, a judgment processing module, a storage module, a three-dimensional clamping jaw, a position monitoring module, a flow line driving unit, a recovery unit and a flow line;

the assembly line sequentially passes through a sample processing module, a culture instrument, an inoculation instrument and an identification instrument;

the system comprises a sample processing module, a sample collecting module and a data processing module, wherein the sample processing module is used for collecting a sanitary sample of each room in a hospital by means of a sampling cup, the sanitary sample is collected by test paper in each room, the sampling cup is provided with an identification label, the identification label is provided with attribution information of rooms, and the attribution information is used for identifying the specific room sample; placing the sampling cup on the production line after sampling is completed; the position monitoring module is used for detecting the position of the sampling cup on the production line in real time; the recovery unit is used for recovering the sampling cup on the production line;

the controller is used for combining the culture instrument, the inoculation instrument, the identification instrument, the position monitoring module, the three-dimensional clamping jaw, the assembly line driving unit and the assembly line to carry out infection monitoring steps, and the method comprises the following specific steps:

the method comprises the following steps: utilize position monitoring module to train the signal to the controller transmission when detecting that the sampling cup reaches cultivateing appearance position department, the controller gets into when receiving the cultivation signal of position monitoring module transmission and cultivates the process, and concrete process is:

s1: firstly, a controller is used for transmitting a pause signal to a pipeline driving unit, and the pipeline driving unit drives and controls a pipeline to stop acting;

s2: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the assembly line into the culture instrument, the culture instrument is used for quickly culturing microorganisms in the sampling cup, and a grabbing signal is transmitted to the controller after the culture is finished;

s3: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the culture instrument to the production line when receiving a grabbing signal transmitted by the culture instrument; finishing the culture operation of the current sampling cup; meanwhile, the controller transmits a starting signal to the pipeline driving unit;

s4: the pipeline driving unit drives the pipeline to start to act;

step two: the position monitoring module transmits an inoculation signal to the controller when detecting that the sampling cup reaches the position of the inoculation instrument, the controller receives the inoculation signal transmitted by the position monitoring module and automatically enters an inoculation test, and the specific expression is as follows:

k1: the controller transmits a pause signal to the assembly line driving unit when receiving the inoculation signal transmitted by the position monitoring module, and the assembly line driving unit drives and controls the assembly line to stop acting;

k2: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the assembly line to the inoculation instrument for inoculation operation, and the inoculation instrument transmits a grabbing signal to the controller after the inoculation operation is finished;

s3: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the inoculation instrument to the production line when receiving a grabbing signal transmitted by the inoculation instrument; finishing the inoculation operation of the current sampling cup; meanwhile, the controller transmits a starting signal to the pipeline driving unit;

k4: the pipeline driving unit drives the pipeline to start action.

Step three: the position monitoring module detects and samples to transmit the appraisal signal to the controller when the cup reaches the position of appraising the appearance, and the controller gets into the appraisal process when receiving the appraisal signal of position monitoring module transmission, and the concrete expression is:

h1: the controller transmits a pause signal to the assembly line driving unit when receiving the identification signal transmitted by the position monitoring module, and the assembly line driving unit drives and controls the assembly line to stop acting;

h2: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the assembly line into the identification instrument for identification operation, and a grabbing signal is transmitted to the controller after the identification operation is finished;

h3: the controller drives the three-dimensional clamping jaw to clamp the sampling cup from the identification instrument to the production line when receiving a grabbing signal transmitted by the identification instrument; finishing the identification operation of the current sampling cup; meanwhile, the controller transmits a starting signal to the pipeline driving unit;

h4: the assembly line drive unit drives the assembly line to start to act, and the sampling cup is conveyed to the sampling cup recovery unit.

The identification instrument can also automatically identify the identification label on the sampling cup when carrying out identification operation, and obtain the attribution information of the room where the sampling cup is located;

the identification instrument is further used for acquiring identification result information after the identification of the sanitary sample in the sampling cup is finished, the identification instrument is used for transmitting the result information and the corresponding attribution information to the controller, the controller transmits the result information and the corresponding attribution information to the display module for real-time display, and the controller transmits the result information and the corresponding attribution information to the storage module for real-time storage;

the collecting and analyzing unit is used for collecting sample information and identification result information obtained by the identification instrument, carrying out sample analysis operation on the sample information and the identification result information to obtain an average infection volume ratio, an infection ratio around a bed, an infection ratio around a window, an infection ratio around a room, a toilet infection ratio and a kitchen infection ratio, and transmitting the average infection volume ratio, the infection ratio around the bed, the window, the room corner, the toilet infection ratio and the kitchen infection ratio to the judging and processing unit;

the judgment processing unit is used for judging and processing the average infection volume ratio, the infection ratio around a bed, the infection ratio around a window, the infection ratio in the corner of a room, the infection ratio in a toilet and the infection ratio in a kitchen to obtain a processing signal and sending the processing signal to the display module.

Further, the culture apparatus is used for culturing the microorganisms in the sampling cup to promote the microorganisms to rapidly grow in the culture apparatus, and the inoculator is used for performing inoculation test on the microorganisms in the culture apparatus.

Further, the specific operation process of the sample analysis operation is as follows:

c1: obtaining sample information and identification result information, and respectively carrying out sample sorting and marking on the sample information and the identification result information, wherein the method specifically comprises the following steps:

for the sample information: b 1: identifying sample information, setting different name data for sample data from different rooms, and marking the sample name data as YMi, b 2: identifying sample information, setting the collection position of the sample therein as sample position data, and calibrating it as YWi, b 3: identifying sample information, sizing the sample area it acquired as sample volume data, and labeling the sample volume data as YTi, and i ═ 1, 2, 3.. n 1;

for the authentication result information: a 1: obtaining identification result information, setting the name of a sample monitored in the identification result information as detection sample name data, and marking the detection sample name data as ymi, a 2: obtaining identification result information, setting the infection result of the sample in the period as detection result data, and calibrating the detection result data as JJi, a 3: acquiring identification result information, setting the infection area in the period as the infection area of the sample, and marking the infection area as GMi, wherein i is 1, 2, 3.. n 1;

c2: matching the detection sample data in the identification result information with the sample name data in the sample information to obtain detection sample data corresponding to the sample name data, and extracting corresponding sample position data, sample volume data, detection result data and sample infection area;

c3: the detection result is divided into infection and non-infection, the infection is marked as 1, the non-infection is marked as 0, the detection result data is identified and is classified and marked according to the infection and the non-infection, the corresponding sample volume data and the sample infection area are identified according to the infection sample, and the sample volume data and the sample infection area are brought into a calculation formula together:wherein, Vi_{Feeling of}Expressed as the proportion of the infected volume of the sample, and the proportion of the infection for the different samples was taken into the calculation:whereinExpressed as mean infected volume per infected sample;

c4: acquiring sample position data of infection and non-infection, and classifying the sample position data according to the position data, wherein the sample position data specifically comprises the following steps: dividing the position data into the periphery of a bed, the periphery of a window, the corners of a room, a toilet, a kitchen and the like in sequence, extracting name data of detection samples with infection and without infection, identifying the infection conditions of different room samples in the positions corresponding to the position data, calculating the total infection amount of the positions of the periphery of the bed, the periphery of the window, the corners of the room, the toilet, the kitchen and the like according to a summation calculation formula, bringing the total infection amount into the calculation formula with the infection amount of the periphery of the bed, the periphery of the window, the corners of the room, the toilet and the kitchen respectively, and calculating the infection ratio of the periphery of the bed, the periphery of the window, the corners of the;

c5: transmitting the sample infection volume ratio, the average infection volume ratio, the infection ratio around the bed, the infection ratio around the window, the infection ratio around the room corner, the infection ratio in the toilet and the infection ratio in the kitchen to the judgment processing unit;

the specific operation process of the further judgment processing operation is as follows:

g1: acquiring the infection ratio around a bed, the infection ratio around a window, the infection ratio in a room corner, the infection ratio in a toilet and the infection ratio in a kitchen, sequencing the infection ratios from large to small, and carrying out integral marking on the infection ratios in sequence, wherein the specific expression is as follows: recording the data arranged at the first position as Rj integrals, recording the data arranged at the second position as Rj-1 integrals, recording the data arranged at the nth position as Rj- (n-1) integrals, calculating the difference value between the infected volume ratio of the sample and the average infected volume ratio, sequencing the difference values, and sequentially marking the sequenced difference values as Ej, Ej-1 and.

G2: extracting the position data of the infected sample in the G1, and performing total integral calculation on the position data, namely adding the difference integral corresponding to the position data of the infected sample and the corresponding proportion sorting integral to obtain the infection integral of each position in total, and sorting the infection total integral from large to small;

g3: and selecting sample name data corresponding to the first three positions, marking the sample name data as a key solution position, and generating a processing signal.

An analysis system for infection monitoring, during operation, firstly, sample information in each room is obtained through a sample processing module, samples are placed in a sampling cup with an identification label, then, the samples in the sampling cup can be sequentially subjected to the steps of cultivation, inoculation and identification through a controller, a corresponding position monitoring module, a three-dimensional clamping jaw and a pipeline driving unit, automation of the procedures of cultivation, inoculation and identification is realized, the obtained result is directly displayed by means of a display module and is convenient to watch, and meanwhile, an identification record is left by means of a storage module, so that future inquiry is facilitated; the invention is simple, effective, easy and practical, and through the arrangement of the acquisition and analysis unit, the relevant data after sample acquisition and detection are acquired, the infection position and the infection ratio of the acquired relevant data are analyzed, the judgment and processing unit carries out infection sequencing according to the infection position and the infection ratio, the priority protection position is determined, a processing signal is sent out, the accuracy of the sample analysis result is improved, the analysis result is correctly judged, the time for manual analysis is saved, and the working efficiency is improved.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.