CN116858998A - Disinfectant production environment supervision system based on medical supplies processing - Google Patents

Abstract

The application belongs to the field of environmental supervision, relates to a data analysis technology, and is used for solving the problem that a disinfectant production environment supervision system in the prior art cannot be used for processing decision recommendation according to environment supervision data, in particular to a disinfectant production environment supervision system based on medical supplies processing, which comprises an environment supervision platform, wherein the environment supervision platform is in communication connection with an air monitoring module, a pipe wall monitoring module, a production line supervision module and a storage module, and the air monitoring module is used for monitoring and analyzing the air quality of a disinfectant production workshop: setting a plurality of monitoring points in a disinfectant production workshop, and acquiring air flow data QL, illumination data GZ and ash concentration data HN of the monitoring points; the application monitors and analyzes the air quality of an disinfectant production workshop, collects and analyzes the air quality parameters of each monitoring point to obtain an air quality coefficient, and feeds back the air quality of the monitoring point through the air quality coefficient.

Description

Disinfectant production environment supervision system based on medical supplies processing

Technical Field

The application belongs to the field of environmental supervision, relates to a data analysis technology, and in particular relates to a disinfectant production environment supervision system based on medical supplies processing.

Background

The production enterprises of the disinfectant must have clean production environment, the surrounding of the production area has no pollution source influencing the quality of the product, and the production area must not be arranged in a residential building, the production room has good ventilation and lighting conditions, and the production area is provided with protection facilities for preventing harmful substances such as dust, insect damage and the like from entering;

however, the disinfectant production environment monitoring system in the prior art can only monitor various environmental parameters of a production workshop and early warn when the environmental parameters are abnormal, and cannot be used for processing decision recommendation according to environment monitoring data, so that the processing efficiency of the environment abnormality is low, and a large production accident can be caused when the processing decision selection is wrong;

the application provides a solution to the technical problem.

Disclosure of Invention

The application aims to provide a disinfectant production environment supervision system based on medical supplies processing, which is used for solving the problem that the disinfectant production environment supervision system in the prior art cannot be used for processing decision recommendation according to environment supervision data.

The technical problems to be solved by the application are as follows: how to provide a disinfectant production environment supervision system based on medical supplies processing, which can make processing decision recommendation according to environment supervision data.

The aim of the application can be achieved by the following technical scheme: the disinfectant production environment supervision system based on medical supplies processing comprises an environment supervision platform, wherein the environment supervision platform is in communication connection with an air monitoring module, a pipe wall monitoring module, a production line supervision module and a storage module;

the air monitoring module is used for monitoring and analyzing the air quality of an disinfectant production workshop: setting a plurality of monitoring points in a disinfectant production workshop, and acquiring air flow data QL, illumination data GZ and ash concentration data HN of the monitoring points, wherein the air flow data QL is an air flow velocity value of the monitoring points, the illumination data GZ is an illumination intensity value of the monitoring points, and the ash concentration data HN is an air dust concentration value of the monitoring points; the air quality coefficient KZ of the monitoring point is obtained by carrying out numerical calculation on the air flow data QL, the illumination data GZ and the ash concentration data HN; marking the monitoring point as a normal point or an abnormal point through a space coefficient KZ; marking the ratio of the number of the normal points to the number of the monitoring points as a normal coefficient, acquiring a normal threshold value through a storage module, comparing the normal coefficient with the normal threshold value, and judging whether the air quality of an disinfectant production workshop meets the requirement or not through a comparison result;

the pipe wall monitoring module is used for monitoring and analyzing the cleanliness of the sterilizing agent contacting the container: marking all containers contacted with a disinfectant as monitoring objects, performing image shooting on the inner wall of the monitoring objects, marking the shot images as monitoring images, amplifying the monitoring images into pixel grid images, performing gray level conversion, obtaining a gray level threshold value through a storage module, marking the pixel grids with gray level values smaller than the gray level threshold value as clean grids, marking the ratio of the number of the clean grids to the number of the pixel grids as a clean coefficient, obtaining the clean threshold value through the storage module, comparing the clean coefficient with the clean threshold value, and judging whether the clean degree of the monitoring objects meets the requirement or not through a comparison result;

the production line supervision module is used for carrying out supervision analysis on the standardization degree of the disinfectant processing production line.

As a preferred embodiment of the present application, the specific process of marking the monitoring point as a normal point or an abnormal point includes: the method comprises the steps of obtaining an empty quality threshold KZmin through a storage module, and comparing an empty quality coefficient KZ of a monitoring point with the empty quality threshold KZmin: if the air quality coefficient KZ is smaller than the air quality threshold KZ, judging that the air quality of the monitoring point does not meet the requirement, and marking the corresponding monitoring point as an abnormal point; if the empty coefficient KZ is larger than or equal to the empty threshold KZmin, judging that the air quality of the monitoring point meets the requirement, and marking the corresponding monitoring point as a normal point.

As a preferred embodiment of the present application, the specific process of comparing the normal coefficient with the normal threshold value includes: if the normal coefficient is greater than or equal to the normal threshold value, judging that the air quality of the disinfectant production workshop meets the requirement, generating a local regulating signal and sending the local regulating signal to an environment monitoring platform, and after receiving the local regulating signal, the environment monitoring platform sends the local regulating signal to a mobile phone terminal of a manager; if the normal coefficient is smaller than the normal threshold, judging that the air quality of the disinfectant production workshop does not meet the requirement, generating a production suspension signal and sending the production suspension signal to an environment supervision platform, and sending the production suspension signal to a mobile phone terminal of a manager after the environment supervision platform receives the production suspension signal.

As a preferred embodiment of the present application, the specific process of comparing the cleaning coefficient with the cleaning threshold value includes: if the cleaning coefficient is smaller than the cleaning threshold, judging that the cleaning degree of the monitored object does not meet the requirement, generating a container cleaning signal and sending the container cleaning signal to an environment supervision platform, and sending the container cleaning signal to a mobile phone terminal of a manager after the environment supervision platform receives the container cleaning signal; and if the cleaning coefficient is greater than or equal to the cleaning threshold, judging that the cleaning degree of the monitored object meets the requirement.

As a preferred embodiment of the application, the specific process of the production line supervision module for carrying out supervision analysis on the standardization degree of the disinfectant processing production line comprises the following steps: marking a disinfectant processing production line as a supervision object, acquiring a personnel track on the supervision object through a camera, marking a length value of a superposition part of the personnel track and a disinfectant conveying path as a superposition value, marking a ratio of the superposition value to the disinfectant conveying path length value as a superposition coefficient, acquiring a superposition threshold through a storage module, comparing the superposition coefficient with the superposition threshold, and judging whether the standardization degree of the disinfectant processing production line meets the requirement or not through a comparison result.

As a preferred embodiment of the present application, the specific process of comparing the coincidence coefficient with the coincidence threshold value includes: if the coincidence coefficient is smaller than the coincidence threshold value, judging that the standard degree of the disinfectant processing production line meets the requirement; if the coincidence coefficient is greater than or equal to the coincidence threshold, judging that the standardization degree of the disinfectant processing production line does not meet the requirement, and marking the corresponding staff as marking staff; generating a supervision period, marking the marking times of the staff marked as the most times of the marking staff in the supervision period as a marking value, marking the number of the marking staff in the supervision period as a person value, marking the number ratio of the marking value to the person value as a marking coefficient, acquiring a marking threshold value through a storage module, and comparing the marking coefficient with the marking threshold value: if the marking coefficient is greater than or equal to the marking threshold value, generating a standard reminding signal and sending the standard reminding signal to an environment supervision platform, and after receiving the standard reminding signal, the environment supervision platform sends the standard reminding signal to a mobile phone terminal of each marking person; if the marking coefficient is smaller than the marking threshold value, generating a centralized training signal and sending the centralized training signal to the environment supervision platform, and after receiving the centralized training signal, the environment supervision platform sends the centralized training signal to a mobile phone terminal of a manager.

The working method of the disinfectant production environment supervision system based on medical supplies processing comprises the following steps:

step one: monitoring and analyzing the air quality of an sterilizing agent production workshop: setting a plurality of monitoring points in a disinfectant production workshop, acquiring air flow data QL, illumination data GZ and ash concentration data HN of the monitoring points, performing numerical calculation to obtain an empty coefficient KZ, marking the monitoring points as normal points or abnormal points through the empty coefficient KZ, marking the ratio of the number of the normal points to the number of the monitoring points as a normal coefficient, and judging whether the air quality of the disinfectant production workshop meets the requirement through the normal coefficient;

step two: monitoring and analyzing the cleanliness of the sterilizing agent contact container: marking all containers contacted with the disinfectant as monitoring objects, performing image shooting on the inner walls of the monitoring objects, marking the shot images as monitoring images, performing image processing on the monitoring images to obtain cleaning coefficients, and judging whether the cleaning degree of the monitoring objects meets the requirements or not through the cleaning coefficients;

step three: performing supervision analysis on the standardization level of the disinfectant processing production line: marking a disinfectant processing production line as a supervision object, acquiring a personnel track on the supervision object through a camera, acquiring a coincidence coefficient through the personnel track, and generating a normative reminding signal or a normative training signal and sending the normative reminding signal or the normative training signal to an environment supervision platform when the normative degree of the disinfectant processing production line meets the requirement through the coincidence coefficient.

The application has the following beneficial effects:

1. the air quality of an disinfectant production workshop can be monitored and analyzed through the air monitoring module, the air quality coefficient is obtained through collecting and analyzing the air quality parameters of each monitoring point, the air quality of the monitoring points is fed back through the air quality coefficient, and meanwhile abnormal air quality treatment measures are distributed through the distribution condition of normal points, so that production accidents are avoided while production efficiency is guaranteed;

2. the cleaning degree of the disinfectant contacting the container can be monitored and analyzed through the pipe wall monitoring module, the cleaning coefficient of the monitored object is obtained through image processing of the monitored object, and the cleaning degree of the disinfectant contacting the inner wall of the container is fed back through the cleaning coefficient, so that the disinfectant is prevented from being polluted by the inner wall of the equipment in the production and conveying processes;

3. the standard degree of the disinfectant processing production line can be monitored and analyzed by the production line monitoring module, the coincidence degree of the personnel track and the disinfectant conveying path is analyzed to obtain the coincidence coefficient, and feeding back the standardization degree of the disinfectant processing production line through the superposition coefficient, and recommending processing decisions through marking conditions when the standardization degree is abnormal, so that the optimization efficiency of production standardization is improved.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the application, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a system block diagram of a first embodiment of the present application;

fig. 2 is a flowchart of a method according to a second embodiment of the application.

Detailed Description

The technical solutions of the present application will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1

As shown in fig. 1, the disinfectant production environment monitoring system based on medical supplies processing comprises an environment monitoring platform, wherein the environment monitoring platform is in communication connection with an air monitoring module, a pipe wall monitoring module, a production line monitoring module and a storage module.

The air monitoring module is used for monitoring and analyzing the air quality of the sterilizing agent production workshop: setting a plurality of monitoring points in a disinfectant production workshop, and acquiring air flow data QL, illumination data GZ and ash concentration data HN of the monitoring points, wherein the air flow data QL is an air flow velocity value of the monitoring points, the illumination data GZ is an illumination intensity value of the monitoring points, and the ash concentration data HN is an air dust concentration value of the monitoring points; by the formulaObtaining an air quality coefficient KZ of the monitoring point, wherein the air quality coefficient is a numerical value reflecting the quality degree of the air of the monitoring point, and the larger the numerical value of the air quality coefficient is, the better the air quality of the monitoring point is indicated; wherein, alpha 1, alpha 2 and alpha 3 are all proportional coefficients, and alpha 1 > alpha 2 > alpha 3 > 1; the method comprises the steps of obtaining an empty quality threshold KZmin through a storage module, and comparing an empty quality coefficient KZ of a monitoring point with the empty quality threshold KZmin: if the air quality coefficient KZ is smaller than the air quality threshold KZ, judging that the air quality of the monitoring point is not satisfiedThe corresponding monitoring points are marked as abnormal points; if the empty coefficient KZ is greater than or equal to an empty threshold KZmin, judging that the air quality of the monitoring point meets the requirement, and marking the corresponding monitoring point as a normal point; marking the ratio of the number of normal points to the number of monitoring points as a normal coefficient, acquiring a normal threshold value through a storage module, and comparing the normal coefficient with the normal threshold value: if the normal coefficient is greater than or equal to the normal threshold value, judging that the air quality of the disinfectant production workshop meets the requirement, generating a local regulating signal and sending the local regulating signal to an environment monitoring platform, and after receiving the local regulating signal, the environment monitoring platform sends the local regulating signal to a mobile phone terminal of a manager; if the normal coefficient is smaller than the normal threshold, judging that the air quality of the disinfectant production workshop does not meet the requirement, generating a production suspension signal and sending the production suspension signal to an environment supervision platform, and sending the production suspension signal to a mobile phone terminal of a manager after the environment supervision platform receives the production suspension signal; air quality of an disinfectant production workshop is monitored and analyzed, air quality parameters of all monitoring points are acquired and analyzed to obtain air quality coefficients, the air quality of the monitoring points is fed back through the air quality coefficients, and meanwhile abnormal air quality handling measures are distributed through the distribution condition of normal points, so that production accidents are avoided while production efficiency is guaranteed.

The pipe wall monitoring module is used for monitoring and analyzing the cleanliness of the sterilizing agent contacting the container: all containers contacted with disinfectant are marked as monitoring objects, the inner wall of the monitoring objects is subjected to image shooting, the shot image is marked as a monitoring image, the monitoring image is amplified into a pixel grid image, gray level conversion is carried out, a gray level threshold value is obtained through a storage module, the pixel grids with gray level values smaller than the gray level threshold value are marked as clean grids, the ratio of the number of the clean grids to the number of the pixel grids is marked as a clean coefficient, the clean threshold value is obtained through the storage module, and the clean coefficient is compared with the clean threshold value: if the cleaning coefficient is smaller than the cleaning threshold, judging that the cleaning degree of the monitored object does not meet the requirement, generating a container cleaning signal and sending the container cleaning signal to an environment supervision platform, and sending the container cleaning signal to a mobile phone terminal of a manager after the environment supervision platform receives the container cleaning signal; if the cleaning coefficient is greater than or equal to the cleaning threshold value, judging that the cleaning degree of the monitored object meets the requirement; the method comprises the steps of monitoring and analyzing the cleanliness of the disinfectant contacting container, obtaining the cleanliness coefficient of the monitored object by performing image processing on the monitored object, and feeding back the cleanliness of the disinfectant contacting container through the cleanliness coefficient, so that the disinfectant is prevented from being polluted by the inner wall of the equipment in the production and conveying processes.

The production line supervision module is used for carrying out supervision analysis on the standardization degree of the disinfectant processing production line: marking a disinfectant processing production line as a supervision object, acquiring a personnel track on the supervision object through a camera, marking a length value of a superposition part of the personnel track and a disinfectant conveying path as a superposition value, marking a ratio of the superposition value to the disinfectant conveying path length value as a superposition coefficient, acquiring a superposition threshold through a storage module, and comparing the superposition coefficient with the superposition threshold: if the coincidence coefficient is smaller than the coincidence threshold value, judging that the standard degree of the disinfectant processing production line meets the requirement; if the coincidence coefficient is greater than or equal to the coincidence threshold, judging that the standardization degree of the disinfectant processing production line does not meet the requirement, and marking the corresponding staff as marking staff; generating a supervision period, marking the marking times of the staff marked as the most times of the marking staff in the supervision period as a marking value, marking the number of the marking staff in the supervision period as a person value, marking the number ratio of the marking value to the person value as a marking coefficient, acquiring a marking threshold value through a storage module, and comparing the marking coefficient with the marking threshold value: if the marking coefficient is greater than or equal to the marking threshold value, generating a standard reminding signal and sending the standard reminding signal to an environment supervision platform, and after receiving the standard reminding signal, the environment supervision platform sends the standard reminding signal to a mobile phone terminal of each marking person; if the marking coefficient is smaller than the marking threshold value, generating a centralized training signal and sending the centralized training signal to an environment supervision platform, and after receiving the centralized training signal, the environment supervision platform sends the centralized training signal to a mobile phone terminal of a manager; and (3) performing supervision analysis on the standardization level of the disinfectant processing production line, analyzing the coincidence degree of the personnel track and the disinfectant conveying path to obtain a coincidence coefficient, feeding back the standardization level of the disinfectant processing production line through the coincidence coefficient, and performing processing decision recommendation through the marking condition when the standardization level is abnormal, so that the optimization efficiency of production standardization is improved.

Example two

As shown in fig. 2, a method for supervising the production environment of a disinfectant based on medical supplies processing comprises the following steps:

step one: monitoring and analyzing the air quality of an sterilizing agent production workshop: setting a plurality of monitoring points in a disinfectant production workshop, acquiring air flow data QL, illumination data GZ and ash concentration data HN of the monitoring points, performing numerical calculation to obtain an empty coefficient KZ, marking the monitoring points as normal points or abnormal points through the empty coefficient KZ, marking the ratio of the number of the normal points to the number of the monitoring points as a normal coefficient, and judging whether the air quality of the disinfectant production workshop meets the requirement through the normal coefficient;

step two: monitoring and analyzing the cleanliness of the sterilizing agent contact container: marking all containers contacted with the disinfectant as monitoring objects, performing image shooting on the inner walls of the monitoring objects, marking the shot images as monitoring images, performing image processing on the monitoring images to obtain cleaning coefficients, and judging whether the cleaning degree of the monitoring objects meets the requirements or not through the cleaning coefficients;

step three: performing supervision analysis on the standardization level of the disinfectant processing production line: marking a disinfectant processing production line as a supervision object, acquiring a personnel track on the supervision object through a camera, acquiring a coincidence coefficient through the personnel track, and generating a normative reminding signal or a normative training signal and sending the normative reminding signal or the normative training signal to an environment supervision platform when the normative degree of the disinfectant processing production line meets the requirement through the coincidence coefficient.

The application discloses a disinfectant production environment supervision system based on medical supplies processing, which is characterized in that a plurality of monitoring points are arranged in a disinfectant production workshop during operation, air flow data QL, illumination data GZ and ash concentration data HN of the monitoring points are obtained, a space quality coefficient KZ is obtained by numerical calculation, the monitoring points are marked as normal points or abnormal points through the space quality coefficient KZ, the ratio of the number of the normal points to the number of the monitoring points is marked as a normal coefficient, and whether the air quality of the disinfectant production workshop meets the requirement or not is judged through the normal coefficient; marking all containers contacted with the disinfectant as monitoring objects, performing image shooting on the inner walls of the monitoring objects, marking the shot images as monitoring images, performing image processing on the monitoring images to obtain cleaning coefficients, and judging whether the cleaning degree of the monitoring objects meets the requirements or not through the cleaning coefficients; marking a disinfectant processing production line as a supervision object, acquiring a personnel track on the supervision object through a camera, acquiring a coincidence coefficient through the personnel track, and generating a normative reminding signal or a normative training signal and sending the normative reminding signal or the normative training signal to an environment supervision platform when the normative degree of the disinfectant processing production line meets the requirement through the coincidence coefficient.

The foregoing is merely illustrative of the structures of this application and various modifications, additions and substitutions for those skilled in the art can be made to the described embodiments without departing from the scope of the application or from the scope of the application as defined in the accompanying claims.

The formulas are all formulas obtained by collecting a large amount of data for software simulation and selecting a formula close to a true value, and coefficients in the formulas are set by a person skilled in the art according to actual conditions; such as: formula (VI)Collecting a plurality of groups of sample data by a person skilled in the art and setting a corresponding empty coefficient for each group of sample data; substituting the set empty coefficient and the acquired sample data into a formula, forming a ternary one-time equation set by any three formulas, screening the calculated coefficient, and taking an average value to obtain values of alpha 1, alpha 2 and alpha 3 of 2.95, 2.38 and 1.84 respectively;

the size of the coefficient is a specific numerical value obtained by quantizing each parameter, so that the subsequent comparison is convenient, and the size of the coefficient depends on the number of sample data and the corresponding empty coefficient is preliminarily set for each group of sample data by a person skilled in the art; as long as the proportional relation between the parameter and the quantized value is not affected, for example, the air quality coefficient is directly proportional to the value of the air flow data.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the application disclosed above are intended only to assist in the explanation of the application. The preferred embodiments are not intended to be exhaustive or to limit the application to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the application and the practical application, to thereby enable others skilled in the art to best understand and utilize the application. The application is limited only by the claims and the full scope and equivalents thereof.

Claims (7)

1. The disinfectant production environment supervision system based on medical supplies processing is characterized by comprising an environment supervision platform, wherein the environment supervision platform is in communication connection with an air monitoring module, a pipe wall monitoring module, a production line supervision module and a storage module;

the air monitoring module is used for monitoring and analyzing the air quality of an disinfectant production workshop: setting a plurality of monitoring points in a disinfectant production workshop, and acquiring air flow data QL, illumination data GZ and ash concentration data HN of the monitoring points, wherein the air flow data QL is an air flow velocity value of the monitoring points, the illumination data GZ is an illumination intensity value of the monitoring points, and the ash concentration data HN is an air dust concentration value of the monitoring points; the air quality coefficient KZ of the monitoring point is obtained by carrying out numerical calculation on the air flow data QL, the illumination data GZ and the ash concentration data HN; marking the monitoring point as a normal point or an abnormal point through a space coefficient KZ; marking the ratio of the number of the normal points to the number of the monitoring points as a normal coefficient, acquiring a normal threshold value through a storage module, comparing the normal coefficient with the normal threshold value, and judging whether the air quality of an disinfectant production workshop meets the requirement or not through a comparison result;

the pipe wall monitoring module is used for monitoring and analyzing the cleanliness of the sterilizing agent contacting the container: marking all containers contacted with a disinfectant as monitoring objects, performing image shooting on the inner wall of the monitoring objects, marking the shot images as monitoring images, amplifying the monitoring images into pixel grid images, performing gray level conversion, obtaining a gray level threshold value through a storage module, marking the pixel grids with gray level values smaller than the gray level threshold value as clean grids, marking the ratio of the number of the clean grids to the number of the pixel grids as a clean coefficient, obtaining the clean threshold value through the storage module, comparing the clean coefficient with the clean threshold value, and judging whether the clean degree of the monitoring objects meets the requirement or not through a comparison result;

the production line supervision module is used for carrying out supervision analysis on the standardization degree of the disinfectant processing production line.

2. A disinfectant manufacturing environment monitoring system based on medical supplies processing as set forth in claim 1, wherein the specific process of marking the monitoring point as a normal point or an abnormal point includes: the method comprises the steps of obtaining an empty quality threshold KZmin through a storage module, and comparing an empty quality coefficient KZ of a monitoring point with the empty quality threshold KZmin: if the air quality coefficient KZ is smaller than the air quality threshold KZ, judging that the air quality of the monitoring point does not meet the requirement, and marking the corresponding monitoring point as an abnormal point; if the empty coefficient KZ is larger than or equal to the empty threshold KZmin, judging that the air quality of the monitoring point meets the requirement, and marking the corresponding monitoring point as a normal point.

3. A disinfectant manufacturing environment monitoring system based on medical supplies processing as set forth in claim 2, wherein the specific process of comparing the normal coefficient with the normal threshold value includes: if the normal coefficient is greater than or equal to the normal threshold value, judging that the air quality of the disinfectant production workshop meets the requirement, generating a local regulating signal and sending the local regulating signal to an environment monitoring platform, and after receiving the local regulating signal, the environment monitoring platform sends the local regulating signal to a mobile phone terminal of a manager; if the normal coefficient is smaller than the normal threshold, judging that the air quality of the disinfectant production workshop does not meet the requirement, generating a production suspension signal and sending the production suspension signal to an environment supervision platform, and sending the production suspension signal to a mobile phone terminal of a manager after the environment supervision platform receives the production suspension signal.

4. A disinfectant manufacturing environment monitoring system based on medical supplies processing as set forth in claim 3, wherein the specific process of comparing the cleaning factor with the cleaning threshold comprises: if the cleaning coefficient is smaller than the cleaning threshold, judging that the cleaning degree of the monitored object does not meet the requirement, generating a container cleaning signal and sending the container cleaning signal to an environment supervision platform, and sending the container cleaning signal to a mobile phone terminal of a manager after the environment supervision platform receives the container cleaning signal; and if the cleaning coefficient is greater than or equal to the cleaning threshold, judging that the cleaning degree of the monitored object meets the requirement.

5. The disinfectant manufacturing environment monitoring system based on medical supplies processing of claim 4, wherein the specific process of performing the monitoring analysis on the standard degree of the disinfectant manufacturing line by the production line monitoring module comprises: marking a disinfectant processing production line as a supervision object, acquiring a personnel track on the supervision object through a camera, marking a length value of a superposition part of the personnel track and a disinfectant conveying path as a superposition value, marking a ratio of the superposition value to the disinfectant conveying path length value as a superposition coefficient, acquiring a superposition threshold through a storage module, comparing the superposition coefficient with the superposition threshold, and judging whether the standardization degree of the disinfectant processing production line meets the requirement or not through a comparison result.

6. A disinfectant manufacturing environment monitoring system based on medical supplies processing as set forth in claim 5, wherein the specific process of comparing the coincidence coefficient with the coincidence threshold value includes: if the coincidence coefficient is smaller than the coincidence threshold value, judging that the standard degree of the disinfectant processing production line meets the requirement; if the coincidence coefficient is greater than or equal to the coincidence threshold, judging that the standardization degree of the disinfectant processing production line does not meet the requirement, and marking the corresponding staff as marking staff; generating a supervision period, marking the marking times of the staff marked as the most times of the marking staff in the supervision period as a marking value, marking the number of the marking staff in the supervision period as a person value, marking the number ratio of the marking value to the person value as a marking coefficient, acquiring a marking threshold value through a storage module, and comparing the marking coefficient with the marking threshold value: if the marking coefficient is greater than or equal to the marking threshold value, generating a standard reminding signal and sending the standard reminding signal to an environment supervision platform, and after receiving the standard reminding signal, the environment supervision platform sends the standard reminding signal to a mobile phone terminal of each marking person; if the marking coefficient is smaller than the marking threshold value, generating a centralized training signal and sending the centralized training signal to the environment supervision platform, and after receiving the centralized training signal, the environment supervision platform sends the centralized training signal to a mobile phone terminal of a manager.

7. A disinfectant manufacturing environment monitoring system based on medical supplies processing as set forth in any one of claims 1-6, wherein the method of operation of the disinfectant manufacturing environment monitoring system based on medical supplies processing includes the steps of:

step one: monitoring and analyzing the air quality of an sterilizing agent production workshop: setting a plurality of monitoring points in a disinfectant production workshop, acquiring air flow data QL, illumination data GZ and ash concentration data HN of the monitoring points, performing numerical calculation to obtain an empty coefficient KZ, marking the monitoring points as normal points or abnormal points through the empty coefficient KZ, marking the ratio of the number of the normal points to the number of the monitoring points as a normal coefficient, and judging whether the air quality of the disinfectant production workshop meets the requirement through the normal coefficient;

step two: monitoring and analyzing the cleanliness of the sterilizing agent contact container: marking all containers contacted with the disinfectant as monitoring objects, performing image shooting on the inner walls of the monitoring objects, marking the shot images as monitoring images, performing image processing on the monitoring images to obtain cleaning coefficients, and judging whether the cleaning degree of the monitoring objects meets the requirements or not through the cleaning coefficients;

step three: performing supervision analysis on the standardization level of the disinfectant processing production line: marking a disinfectant processing production line as a supervision object, acquiring a personnel track on the supervision object through a camera, acquiring a coincidence coefficient through the personnel track, and generating a normative reminding signal or a normative training signal and sending the normative reminding signal or the normative training signal to an environment supervision platform when the normative degree of the disinfectant processing production line meets the requirement through the coincidence coefficient.