CN114880361A - Production, processing, supervision and management method and system for bladder fistulation tube - Google Patents

Abstract

The invention discloses a production, processing and supervision management method and a system for a bladder fistulation tube, which relate to the field of artificial intelligence, and the method comprises the following steps: constructing a medical tube database which comprises production standard data of various medical tubes; traversing production standard data of the bladder ostomy tube; determining the material standard and the finished product standard of the bladder stoma; obtaining production raw materials and obtaining a material detection result; if the material detection result meets the material standard, putting the production raw material into production; obtaining a finished product of the bladder ostomy tube produced using the production raw material; and (4) carrying out quality detection to obtain a finished product detection result, and comparing to realize production, processing and supervision management of the bladder fistulation tube. The problem of among the prior art inspection cost height, inspection efficiency low, and find the problem untimely, influence bladder fistulization pipe finished product qualification rate is solved. The technical effects of improving the production supervision efficiency and the supervision quality of the bladder fistulation tube and further improving the qualification rate of finished products are achieved.

Description

Production, processing, supervision and management method and system for bladder fistulation tube

Technical Field

The invention relates to the field of artificial intelligence, in particular to a production, processing and supervision management method and system for a bladder fistulation tube.

Background

The bladder fistulation tube is used as a medical tube, and the production and manufacturing process of the bladder fistulation tube is strictly standardized, so that the final production qualified rate is ensured, and the safety and the reliability of a patient in actual application are further ensured. In the prior art, the quality inspection of production raw materials is realized through manual tests, and in the processing and production process, inspection cost is high, inspection efficiency is low, problems cannot be found at the first time and measures cannot be taken in time in a targeted manner, and the qualification rate of finished products of the bladder fistula is finally influenced. The research utilizes the computer technology to carry out intelligent real-time detection on raw materials, finished products and the like produced by the bladder fistulization tube, and carries out standard digital monitoring on the extrusion molding process of the bladder fistulization tube in the production and processing process, for example, the molding error of the die-separation expansion is considered, so that the intelligent real-time detection method has important significance for ensuring the monitoring accuracy, concreteness and precision and finally ensuring the product quality of the bladder fistulization tube in enterprises, society and the like.

However, the monitoring of the production and processing process of the cystostomy tube is realized through manual regular inspection in the prior art, and the technical problems of high inspection cost, low inspection efficiency, untimely problem discovery and further influence on the qualified rate of finished cystostomy tube products exist.

Disclosure of Invention

The invention aims to provide a production, processing and supervision management method and a production, processing and supervision management system for a bladder fistulization tube, which are used for solving the technical problems that the production and processing processes of the bladder fistulization tube are monitored through manual regular inspection in the prior art, the inspection cost is high, the inspection efficiency is low, problems are not found timely, and the finished product yield of the bladder fistulization tube is influenced.

In view of the above problems, the present invention provides a production process supervision and management method and system for a bladder stoma.

In a first aspect, the present invention provides a production process supervision and management method for a bladder stoma, the method being implemented by a production process supervision and management system for a bladder stoma, wherein the method comprises: constructing a medical tube database, wherein the medical tube database includes a plurality of types of production standard data of medical tubes; traversing the bladder ostomy tube among the plurality of medical tubes and matching production criteria data of the bladder ostomy tube; determining the material standard and the finished product standard of the bladder stoma according to the production standard data of the bladder stoma; obtaining production raw materials of the bladder stoma, and detecting the production raw materials to obtain a material detection result; comparing the material detection result with the material standard, and if the material detection result meets the material standard, putting the production raw material into production; obtaining a finished product of the bladder stoma, wherein the finished product refers to the finished product of the bladder stoma produced by using the production raw material; and carrying out quality detection on the produced finished product to obtain a finished product detection result, and carrying out production, processing and supervision management on the bladder fistulation tube by comparing the finished product detection result with the finished product standard.

In a second aspect, the present invention also provides a production process supervision and management system for a bladder stoma, for performing the production process supervision and management method for a bladder stoma as described in the first aspect, wherein the system comprises: the medical tube database comprises a construction module, a storage module and a management module, wherein the construction module is used for constructing a medical tube database, and the medical tube database comprises production standard data of various medical tubes; a matching module for traversing the bladder ostomy tubes among the plurality of medical tubes and matching production standard data of the bladder ostomy tubes; the determining module is used for determining the material standard and the finished product standard of the bladder stoma according to the production standard data of the bladder stoma; the material detection module is used for obtaining production raw materials of the bladder stoma, and detecting the production raw materials to obtain a material detection result; the material detection and analysis module is used for comparing the material detection result with the material standard, and if the material detection result meets the material standard, the production raw material is put into production; a production module for obtaining a finished product of the bladder stoma, wherein the finished product refers to a finished product of the bladder stoma produced by using the production raw material; and the supervision module is used for carrying out quality detection on the produced finished product to obtain a finished product detection result and carrying out production, processing and supervision management on the bladder fistulation tube by comparing the finished product detection result with the finished product standard.

One or more technical schemes provided by the invention at least have the following technical effects or advantages:

constructing a medical tube database, wherein the medical tube database includes a plurality of types of production standard data of medical tubes; traversing the bladder ostomy tube among the plurality of medical tubes and matching production criteria data of the bladder ostomy tube; determining the material standard and the finished product standard of the bladder stoma according to the production standard data of the bladder stoma; obtaining production raw materials of the bladder stoma, and detecting the production raw materials to obtain a material detection result; comparing the material detection result with the material standard, and if the material detection result meets the material standard, putting the production raw material into production; obtaining a finished product of the bladder stoma, wherein the finished product refers to the finished product of the bladder stoma produced by using the production raw material; and carrying out quality detection on the produced finished product to obtain a finished product detection result, and carrying out production, processing and supervision management on the bladder fistulation tube by comparing the finished product detection result with the finished product standard. Through the intelligent supervision and management of the raw materials, the production and processing processes and the finished products of the bladder fistulization tube, the technical effects of improving the production supervision efficiency and the supervision quality of the bladder fistulization tube and further improving the qualification rate of the finished products of the bladder fistulization tube are achieved.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

In order to more clearly illustrate the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only exemplary, and for those skilled in the art, other drawings can be obtained according to the provided drawings without inventive effort.

Fig. 1 is a schematic flow chart of a production process supervision and management method for a bladder stoma of the present invention;

FIG. 2 is a schematic flow chart showing the process of performing the environmental supervision according to the judgment result in the method for supervising and managing the production and processing of the bladder fistula of the present invention;

FIG. 3 is a schematic flow chart showing the layout supervision according to the judgment result in the method for supervising and managing the production and processing of the bladder stoma tube according to the present invention;

FIG. 4 is a schematic flow chart illustrating the precise control of the extrusion molding of the bladder stoma tube in the production process supervision and management method for the bladder stoma tube according to the present invention;

fig. 5 is a schematic structural view of a production process supervision and management system for a bladder stoma of the present invention.

Description of reference numerals:

the system comprises a building module M100, a matching module M200, a determining module M300, a material detecting module M400, a material detecting and analyzing module M500, a production module M600 and a supervision module M700.

Detailed Description

The invention provides a production, processing and supervision management method and system for a bladder fistulization tube, and solves the technical problems that in the prior art, the production and processing processes of the bladder fistulization tube are monitored through manual regular inspection, the inspection cost is high, the inspection efficiency is low, problems are not found timely, and the qualification rate of finished products of the bladder fistulization tube is influenced. Through the intelligent supervision and management of the raw materials, the production and processing processes and the finished products of the bladder fistulization tube, the technical effects of improving the production supervision efficiency and the supervision quality of the bladder fistulization tube and further improving the qualification rate of the finished products of the bladder fistulization tube are achieved.

In the technical scheme of the invention, the data acquisition, storage, use, processing and the like all conform to relevant regulations of national laws and regulations.

In the following, the technical solutions in the present invention will be clearly and completely described with reference to the accompanying drawings, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments of the present invention, and it should be understood that the present invention is not limited by the example embodiments described herein. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention. It should be further noted that, for the convenience of description, only some but not all of the elements associated with the present invention are shown in the drawings.

The invention provides a production, processing and supervision management method for a bladder stoma, which is applied to a production, processing and supervision management system for a bladder stoma, wherein the method comprises the following steps: constructing a medical tube database, wherein the medical tube database includes a plurality of types of production standard data of medical tubes; traversing the bladder ostomy tube among the plurality of medical tubes and matching production criteria data of the bladder ostomy tube; determining the material standard and the finished product standard of the bladder stoma according to the production standard data of the bladder stoma; obtaining production raw materials of the bladder stoma, and detecting the production raw materials to obtain a material detection result; comparing the material detection result with the material standard, and if the material detection result meets the material standard, putting the production raw material into production; obtaining a finished product of the bladder stoma, wherein the finished product refers to the finished product of the bladder stoma produced by using the production raw material; and carrying out quality detection on the produced finished product to obtain a finished product detection result, and carrying out production, processing and supervision management on the bladder fistulation tube by comparing the finished product detection result with the finished product standard.

Having described the general principles of the invention, reference will now be made in detail to various non-limiting embodiments of the invention, examples of which are illustrated in the accompanying drawings.

Example one

Referring to fig. 1, the present invention provides a production, processing, supervision and management method for a bladder fistula, wherein the method is applied to a production, processing, supervision and management system for a bladder fistula, and the method specifically comprises the following steps:

step S100: constructing a medical tube database, wherein the medical tube database comprises a plurality of types of production standard data of medical tubes;

particularly, the production, processing and supervision management method for the bladder fistulization tube is applied to the production, processing and supervision management system for the bladder fistulization tube, can intelligently supervise and manage the production and processing process of the bladder fistulization tube, reduces the cost of manual regular supervision and management, improves the supervision quality and the supervision efficiency, further timely and purposefully processes the process, and finally improves the qualified rate of finished products of the bladder fistulization tube. The medical tube database is composed based on the requirements and standards of various medical tubes of the big data assembly, including material standards, environmental standards of the production process, layout standards of the production workshop, quality standards of finished products after production, and the like. The production standard data of the bladder ostomy tube is obtained by comprehensively analyzing and formulating the big data, so that visual and accurate detection result judgment reference is provided for the following raw material detection, production and processing process detection, finished product detection and the like of the bladder ostomy tube.

Step S200: traversing the bladder ostomy tube among the plurality of medical tubes and matching production criteria data of the bladder ostomy tube;

step S300: determining the material standard and the finished product standard of the bladder stoma according to the production standard data of the bladder stoma;

specifically, based on the medical tube database which is obtained by the construction, bladder fistulization tube related data, namely production standard data of the bladder fistulization tube, is obtained through traversal. Further, a material standard and a finished product standard of the bladder stoma are analytically determined according to the production standard data of the bladder stoma. For example, the material of the bladder stoma tube should have biocompatibility, long service life and the like, and the finished product of the bladder stoma tube should be sterile and nontoxic, and have the advantages of uniform thickness, good flexibility, no inflammation with human tissues and the like. By determining the material standard and the finished product standard of the bladder stoma, the technical effect of providing visual and accurate detection result judgment reference for the following raw material detection, production and processing process detection, finished product detection and the like of the bladder stoma is achieved.

Step S400: obtaining production raw materials of the bladder stoma, and detecting the production raw materials to obtain a material detection result;

step S500: comparing the material detection result with the material standard, and if the material detection result meets the material standard, putting the production raw material into production;

further, the invention also comprises the following steps:

step S510: collecting material samples of the production raw materials based on a preset sampling scheme;

step S520: detecting the collected material sample to obtain a material detection result, and judging whether the material detection result meets the material standard;

step S530: obtaining a production instruction if the material detection result meets the material standard, wherein the production instruction is used for putting the production raw material into the production of the bladder stoma.

Specifically, a production raw material of the bladder stoma is sampled using a preset sampling protocol. The preset sampling scheme is a scheme for collecting test samples which is specifically formulated according to the types, the quantity, the performance characteristics and the like of raw materials. For example, if the raw material is in the form of pellets, 10 g is diagonally sampled for each of 5 cm, 10 cm and 15 cm depths, and all samples are finally used as test samples. Further, the collected material sample is detected to obtain a material detection result, and whether the material detection result meets the corresponding material standard or not is judged. When the material detection result meets the material standard, the system automatically sends out a production instruction for putting the production raw material into the production of the bladder stoma.

The raw materials of the bladder fistulization tube are subjected to sample collection by a reasonable and effective sampling scheme, and the qualified materials of the detection results of the raw materials are put into the bladder fistulization tube for production, so that the technical effect of providing a reliable material foundation for the subsequent production, processing and manufacturing of the bladder fistulization tube is achieved.

Further, referring to fig. 2, the present invention further includes the following steps:

step S541: determining the production standard of the bladder stoma according to the production standard data of the bladder stoma;

step S542: obtaining a production processing workshop, wherein the production processing workshop is a workshop for producing and processing the bladder stoma tube by using the production raw materials;

step S543: carrying out intelligent monitoring on the production processing workshop by using an intelligent monitoring module to obtain a monitoring information set;

further, the invention also comprises the following steps:

step S5431: constructing an intelligent monitoring module, wherein the intelligent monitoring module comprises a dust particle counter, an air quality detector, a temperature and humidity sensor and a wind speed and direction sensor;

step S5432: based on a preset layout scheme, the dust particle counter, the air quality detector, the temperature and humidity sensor and the wind speed and direction sensor are installed in the production and processing workshop;

step S5433: monitoring the production and processing workshop in real time by using the dust particle counter to obtain workshop cleanliness data;

step S5434: monitoring the production processing workshop in real time by using the air quality detector to obtain workshop air quality data;

step S5435: monitoring the production processing workshop in real time by using the temperature and humidity sensor to obtain workshop temperature data and workshop humidity data;

step S5436: monitoring the production processing workshop in real time by using the wind speed and direction sensor to obtain workshop wind speed data and workshop wind direction data;

step S5437: and establishing the monitoring information set based on the workshop cleanliness data, the workshop air quality data, the workshop temperature data, the workshop humidity data, the workshop wind speed data and the workshop wind direction data.

Step S544: extracting monitoring data of any monitoring index in the monitoring information set, and traversing a standard threshold value of the monitoring index in the production standard;

step S545: and judging whether the monitoring data meet the standard threshold value or not, and performing environmental supervision according to a judgment result.

Further, referring to fig. 3, the present invention further includes the following steps:

step S5461: utilizing a high-definition camera device to carry out camera monitoring on the production processing workshop to obtain real-time camera information;

step S5462: intercepting the real-time camera information based on a preset screenshot scheme to obtain a monitoring image of the production and processing workshop;

step S5463: collecting the spatial structure characteristics of the monitoring image, and determining the layout of the production processing workshop according to the spatial structure characteristics;

step S5464: obtaining a standard production flow of the bladder stoma based on big data, and analyzing the standard production flow to form a layout specification;

step S5465: and judging whether the layout of the production processing workshop meets the layout specification or not, and performing layout supervision and management according to a judgment result.

Specifically, before the intelligent monitoring module is used for carrying out environment supervision processing on the production processing workshop, the intelligent monitoring module is firstly constructed and used for carrying out intelligent monitoring on the real-time workshop environment. The intelligent monitoring module comprises a dust particle counter, an air quality detector, a temperature and humidity sensor and a wind speed and direction sensor. The dust particle counter is used for monitoring the cleanliness of the production and processing workshop in real time, the air quality detector is used for monitoring the air quality of the production and processing workshop in real time, the temperature and humidity sensor is used for monitoring the air temperature and the air humidity of the production and processing workshop in real time, and the wind speed and wind direction sensor is used for monitoring the wind speed data and the wind direction condition of the production and processing workshop in real time. And then, workshop cleanliness data, workshop air quality data, workshop temperature data, workshop humidity data, workshop wind speed data and workshop wind direction data acquired by each intelligent device are constructed into a monitoring information set. And finally, sequentially judging whether each piece of information in the monitoring information set meets the corresponding standard or not based on the production standard, and performing targeted early warning when the index is abnormal, namely the index does not meet the corresponding index standard, so as to realize the intelligent supervision and management target of the production environment.

Realize the intelligent real-time supervision to cystostomy pipe production and processing manufacturing environment through intelligent monitoring module, ensure that the production environment satisfies corresponding cystostomy pipe production requirement constantly, and then guarantee cystostomy pipe finished product quality.

Furthermore, firstly, the high-definition camera device is installed at each part of the production and processing workshop for camera shooting monitoring, so that real-time camera shooting information is obtained. The installation quantity and the installation positions of the high-definition camera devices are distributed according to the actual production and processing conditions. And then intercepting the real-time camera information based on a preset screenshot scheme to obtain a monitoring image of the production and processing workshop. The preset screenshot scheme can be used for intercepting the monitoring image by setting screenshot frequency, or intercepting images at different time intervals by aiming at high-definition camera devices at different positions. By designing the screenshot scheme based on actual needs, the data volume of the system for processing images can be effectively reduced on the basis of ensuring the screenshot quantity and screenshot quality and further ensuring the screenshot image analysis effect, so that the system performance is ensured. And acquiring the spatial structure characteristics of the monitoring image, determining the actual layout of the production processing workshop according to the spatial structure characteristics, obtaining the standard production flow of the bladder stoma based on big data, analyzing the standard production flow to form a layout standard, and finally judging whether the layout of the production processing workshop meets the layout standard or not by comparing the actual layout with the layout standard so as to realize the layout supervision and management target of the production processing workshop.

The image acquisition device is used for monitoring the production flow in real time, so that the whole production layout is ensured to be standard and reasonable, and early warning reminding is performed when the layout is unreasonable, so that the technical effect of improving the production efficiency and ensuring the product quality is achieved.

Further, referring to fig. 4, the present invention further includes the following steps:

step S5471: the method comprises the steps of constructing a mathematical model of a catheter extrusion unit by using Ansys software, wherein the mathematical model is a three-dimensional unsteady non-isothermal theoretical model formed by extrusion;

step S5472: based on the mathematical model, carrying out a simulation test on the process of carrying out unsteady-state non-isothermal extrusion molding on the bladder stoma tube by using the catheter extruder set to obtain a test result;

step S5473: calculating and determining a precision molding scheme according to the test result, wherein the precision molding scheme comprises a preset volume flow threshold value and a preset relaxation time threshold value;

step S5474: and precisely controlling the extrusion molding of the bladder stoma according to the precise molding scheme.

Further, the invention also comprises the following steps:

step S54741: collecting parameters of the extrusion molding process and rheological performance parameters of the bladder stoma tube in real time to obtain a real-time production parameter set;

step S54742: judging whether the real-time production parameter set conforms to the precision molding scheme;

step S54743: and if the real-time production parameter set does not accord with the precision molding scheme, acquiring early warning information, wherein the early warning information is used for early warning the production parameters.

Specifically, before the precision monitoring of the extrusion molding process of the bladder fistulation tube is carried out based on a computer technology, an intelligent mathematical model is constructed firstly, and the optimization of extrusion molding control parameters is realized through simulation.

Firstly, an Ansys software is utilized to construct a mathematical model of a catheter extruder unit, wherein the mathematical model refers to a three-dimensional unsteady non-isothermal theoretical model formed by extrusion. And then carrying out a simulation test on the process of carrying out unsteady-state non-isothermal extrusion molding on the bladder stoma tube by using the catheter extruder set based on the mathematical model and obtaining a test result. Further, a precise forming scheme is determined through calculation of the test result, wherein the precise forming scheme comprises a preset volume flow threshold value and a preset relaxation time threshold value. Further, parameters of the extrusion molding process and rheological performance parameters of the bladder stoma tube are collected in real time to obtain a real-time production parameter set, whether the real-time production parameter set meets the preset volume flow threshold value and the preset relaxation time threshold value in the precision molding scheme or not is judged, and when the real-time production parameter set does not meet the precision molding scheme, the system automatically obtains early warning information for early warning the production parameters. Finally, the aim of precisely controlling the extrusion molding of the bladder stoma based on the precise molding scheme is achieved.

By constructing a mathematical model for production and processing of the cystostomy tube and simulating to obtain an optimal control scheme, the aim of optimizing and controlling the production process parameters of the cystostomy tube is fulfilled, and the technical effects of improving the production precision control of the cystostomy tube, reducing the size error of a finished product of the cystostomy tube and improving the overall quality of the cystostomy tube are achieved.

Step S600: obtaining a finished product of the bladder stoma, wherein the finished product refers to the finished product of the bladder stoma produced by using the production raw material;

step S700: and carrying out quality detection on the produced finished product to obtain a finished product detection result, and carrying out production, processing and supervision management on the bladder fistulation tube by comparing the finished product detection result with the finished product standard.

Specifically, the raw materials of the bladder fistula are intelligently detected, and the bladder fistula production is carried out after the materials are qualified. Wherein, the environment, the workshop layout and the like in the production process of the bladder fistulation tube are monitored in real time, thereby ensuring the production quality and the production efficiency of the bladder fistulation tube. And finally, obtaining a finished product of the cystostomy tube through standardized intelligent production supervision and management. Before putting the obtained finished product of the cystostomy tube into practical application, the finished product needs to be subjected to quality detection, post-treatment, packaging and the like. Firstly, the finished product of the bladder ostomy tube produced by the production raw materials is subjected to appearance, size, performance and the like detection to obtain a corresponding detection result. And then matching standard index parameters of the finished product of the bladder fistulization tube in the production standard data of the bladder fistulization tube, and comparing and analyzing whether each index parameter in the actual detection result is within the threshold range of the standard index parameters, thereby calculating to obtain a qualified product and an unqualified product of the bladder fistulization tube. Finally, the qualified products are put into medical treatment for long time use, and the unqualified products are subjected to targeted treatment.

Through the intelligent supervision and management of the raw materials, the production and processing processes and the finished products of the bladder fistulization tube, the technical effects of improving the production supervision efficiency and the supervision quality of the bladder fistulization tube and further improving the qualification rate of the finished products of the bladder fistulization tube are achieved.

In summary, the production, processing, supervision and management method for the bladder fistulation tube provided by the invention has the following technical effects:

the production standard data of the bladder ostomy tube is obtained by comprehensively analyzing and formulating the big data, so that visual and accurate detection result judgment reference is provided for the following raw material detection, production and processing process detection, finished product detection and the like of the bladder ostomy tube. The raw materials of the bladder fistulization tube are subjected to sample collection by a reasonable and effective sampling scheme, and the qualified materials of the detection results of the raw materials are put into the bladder fistulization tube for production, so that the technical effect of providing a reliable material foundation for the subsequent production, processing and manufacturing of the bladder fistulization tube is achieved. Furthermore, the intelligent real-time monitoring of the production, processing and manufacturing environment of the cystostomy tube is realized through the intelligent monitoring module, the production environment is ensured to meet the production requirement of the corresponding cystostomy tube at all times, and the quality of the finished cystostomy tube is further ensured. Meanwhile, the image acquisition device is used for monitoring the production process in real time, so that the overall production layout is standard and reasonable, the production efficiency is improved, and the product quality is ensured. In addition, an optimal control scheme is obtained through constructing a mathematical model for production and processing of the cystostomy tube and simulation, so that the aim of optimizing and controlling the production process parameters of the cystostomy tube is fulfilled, and the technical effects of improving the production precision control of the cystostomy tube, reducing the size error of a finished product of the cystostomy tube and improving the overall quality of the cystostomy tube are achieved.

Example two

Based on the same inventive concept as the production, processing and supervision management method for the bladder fistulation tube in the previous embodiment, the present invention further provides a production, processing and supervision management system for the bladder fistulation tube, referring to fig. 5, wherein the system comprises:

a construction module M100 for constructing a medical tube database, wherein the medical tube database includes a plurality of production standard data of medical tubes;

a matching module M200 for traversing the bladder ostomy tube among the plurality of medical tubes and matching production standard data of the bladder ostomy tube;

a determining module M300, configured to determine a material standard and a finished product standard of the bladder stoma according to the production standard data of the bladder stoma;

the material detection module M400 is used for obtaining production raw materials of the bladder stoma, and detecting the production raw materials to obtain a material detection result;

the material detection and analysis module M500 is used for comparing the material detection result with the material standard, and if the material detection result meets the material standard, the production raw material is put into production;

a production module M600 for obtaining a finished product of the bladder stoma, wherein the finished product refers to a finished product of the bladder stoma produced using the production raw material;

and the supervision module M700 is used for carrying out quality detection on the produced finished product to obtain a finished product detection result and carrying out production, processing and supervision management on the bladder fistulization tube by comparing the finished product detection result with the finished product standard.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, the production, processing, supervision and management method for a bladder fistula in the first embodiment in fig. 1 and the specific examples are also applicable to the production, processing, supervision and management system for a bladder fistula in the present embodiment, and through the foregoing detailed description of the production, processing, supervision and management method for a bladder fistula, a production, processing, supervision and management system for a bladder fistula in the present embodiment is clear to those skilled in the art, so for the sake of brevity of the description, detailed description is omitted here. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the present invention and its equivalent technology, it is intended that the present invention also include such modifications and variations.

Claims (8)

1. A production process supervision and management method for a bladder stoma, comprising:

constructing a medical tube database, wherein the medical tube database comprises a plurality of types of production standard data of medical tubes;

traversing the bladder ostomy tube among the plurality of medical tubes and matching production criteria data of the bladder ostomy tube;

determining the material standard and the finished product standard of the bladder stoma according to the production standard data of the bladder stoma;

obtaining production raw materials of the bladder stoma, and detecting the production raw materials to obtain a material detection result;

comparing the material detection result with the material standard, and if the material detection result meets the material standard, putting the production raw material into production;

obtaining a finished product of the bladder stoma, wherein the finished product refers to the finished product of the bladder stoma produced by using the production raw material;

and carrying out quality detection on the produced finished product to obtain a finished product detection result, and carrying out production, processing and supervision management on the bladder fistulation tube by comparing the finished product detection result with the finished product standard.

2. The method of claim 1, prior to commissioning the production raw material, comprising:

collecting material samples of the production raw materials based on a preset sampling scheme;

detecting the collected material sample to obtain a material detection result, and judging whether the material detection result meets the material standard;

and if the material detection result meets the material standard, obtaining a production instruction, wherein the production instruction is used for putting the production raw materials into the production of the bladder fistulation tube.

3. The method of claim 2, further comprising, after the inputting of the production raw material into the production of the bladder stoma tube:

determining a production standard of the bladder stoma based on the production standard data of the bladder stoma;

obtaining a production processing workshop, wherein the production processing workshop is a workshop for producing and processing the bladder stoma tube by using the production raw materials;

carrying out intelligent monitoring on the production processing workshop by using an intelligent monitoring module to obtain a monitoring information set;

extracting monitoring data of any monitoring index in the monitoring information set, and traversing a standard threshold value of the monitoring index in the production standard;

and judging whether the monitoring data meet the standard threshold value or not, and performing environmental supervision according to a judgment result.

4. The method of claim 3, wherein obtaining the monitoring information set comprises:

constructing an intelligent monitoring module, wherein the intelligent monitoring module comprises a dust particle counter, an air quality detector, a temperature and humidity sensor and a wind speed and direction sensor;

based on a preset layout scheme, the dust particle counter, the air quality detector, the temperature and humidity sensor and the wind speed and direction sensor are installed in the production and processing workshop;

monitoring the production and processing workshop in real time by using the dust particle counter to obtain workshop cleanliness data;

monitoring the production processing workshop in real time by using the air quality detector to obtain workshop air quality data;

monitoring the production processing workshop in real time by using the temperature and humidity sensor to obtain workshop temperature data and workshop humidity data;

monitoring the production processing workshop in real time by using the wind speed and direction sensor to obtain workshop wind speed data and workshop wind direction data;

and establishing the monitoring information set based on the workshop cleanliness data, the workshop air quality data, the workshop temperature data, the workshop humidity data, the workshop wind speed data and the workshop wind direction data.

5. The method according to claim 3, further comprising, after the environmental supervision processing according to the determination result:

utilizing a high-definition camera device to carry out camera monitoring on the production processing workshop to obtain real-time camera information;

intercepting the real-time camera information based on a preset screenshot scheme to obtain a monitoring image of the production and processing workshop;

collecting the spatial structure characteristics of the monitoring image, and determining the layout of the production processing workshop according to the spatial structure characteristics;

obtaining a standard production flow of the bladder stoma based on big data, and analyzing the standard production flow to form a layout specification;

and judging whether the layout of the production processing workshop meets the layout specification or not, and performing layout supervision and management according to a judgment result.

6. The method according to claim 5, further comprising, after the performing layout supervision management according to the determination result:

the method comprises the steps of constructing a mathematical model of a catheter extrusion unit by using Ansys software, wherein the mathematical model is a three-dimensional unsteady non-isothermal theoretical model formed by extrusion;

based on the mathematical model, carrying out a simulation test on the process of carrying out unsteady-state non-isothermal extrusion molding on the bladder stoma tube by using the catheter extruder set to obtain a test result;

calculating and determining a precision molding scheme according to the test result, wherein the precision molding scheme comprises a preset volume flow threshold value and a preset relaxation time threshold value;

and precisely controlling the extrusion molding of the bladder stoma according to the precise molding scheme.

7. The method of claim 6, wherein the fine control of the extrusion of the bladder stoma tube comprises:

collecting parameters of the extrusion molding process and rheological performance parameters of the bladder stoma tube in real time to obtain a real-time production parameter set;

judging whether the real-time production parameter set conforms to the precision molding scheme;

and if the real-time production parameter set does not accord with the precision molding scheme, acquiring early warning information, wherein the early warning information is used for early warning the production parameters.

8. A production process supervision and management system for bladder fistulation tubes, applied to the steps of the method according to any one of claims 1 to 7, comprising:

the medical tube database comprises a construction module, a storage module and a management module, wherein the construction module is used for constructing a medical tube database, and the medical tube database comprises production standard data of various medical tubes;

a matching module for traversing the bladder ostomy tube among the plurality of medical tubes and matching production standard data of the bladder ostomy tube;

the determining module is used for determining the material standard and the finished product standard of the bladder stoma according to the production standard data of the bladder stoma;

the material detection module is used for obtaining production raw materials of the bladder stoma, and detecting the production raw materials to obtain a material detection result;

the material detection and analysis module is used for comparing the material detection result with the material standard, and if the material detection result meets the material standard, the production raw material is put into production;

a production module for obtaining a finished product of the bladder stoma, wherein the finished product refers to a finished product of the bladder stoma produced by using the production raw material;

and the supervision module is used for carrying out quality detection on the produced finished product to obtain a finished product detection result and carrying out production, processing and supervision management on the bladder fistulation tube by comparing the finished product detection result with the finished product standard.

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