CN115148346B - Intelligent management method and system for disposable endoscope stone-taking net basket - Google Patents

Abstract

The invention discloses an intelligent management method and system for a disposable endoscope stone-taking basket, and relates to the field of basket data processing, wherein the method comprises the following steps: acquiring basic information of the stone-taking net basket to generate an identification code of the stone-taking net basket; inputting the identification code and the basic information into an intelligent management system, and storing the stone-taking net basket into a storage device; when the intelligent management system carries out basic information entry, generating a self-checking instruction and generating a margin detection result; and performing storage sequencing of the stone-taking baskets stored in the storage device according to the production date information and the margin detection result, generating a margin evaluation result based on the margin detection result, and displaying the margin evaluation result through the display device. The comprehensiveness, the accuracy and the accuracy of the management of the disposable endoscope calculus-removing net basket are improved, and the management effect of the disposable endoscope calculus-removing net basket is further improved; meanwhile, the intelligent development of the disposable endoscope calculus removal basket management is promoted.

Description

Intelligent management method and system for disposable endoscope stone-taking net basket

Technical Field

The invention relates to the field of basket data processing, in particular to an intelligent management method and system for a disposable endoscope calculus removal basket.

Background

With the development of science and technology, people produce various types of disposable endoscope calculus-removing baskets, and the disposable endoscope calculus-removing baskets can be matched with an endoscope for use and have an important role in the aspects of removing foreign matters, calculus or excised tissue samples in the digestive tract and the like. With the increasing demand of disposable endoscope calculus-removing baskets, higher-level requirements are also provided for the management of disposable endoscope calculus-removing baskets.

In the prior art, the technical problem that the management effect of the disposable endoscope calculus removing basket is poor due to the fact that the management comprehensiveness of the disposable endoscope calculus removing basket is not high exists.

Disclosure of Invention

The application provides an intelligent management method and system for a disposable endoscope calculus removal basket. The technical problem of among the prior art to the management comprehensiveness that disposable endoscope got the stone basket is not high, and then cause the not good management effect of disposable endoscope got the stone basket is solved. In view of the above, the present application provides an intelligent management method and system for a disposable endoscopic calculus removal basket.

In a first aspect, the present application provides an intelligent management method for a single-use endoscope calculus removal basket, wherein the method is applied to an intelligent management system for a single-use endoscope calculus removal basket, and the method comprises: acquiring basic information of the stone-taking net basket, wherein the basic information comprises product model information, production date information and production batch information; generating an identification code of the stone-taking basket according to the basic information, wherein the identification code is uniquely corresponding to the stone-taking basket; after the stone-taking net basket is identified based on the identification code, the identification code and the basic information are input into the intelligent management system, and the stone-taking net basket is stored in the storage device; when the intelligent management system carries out basic information entry, generating a self-checking instruction, carrying out allowance detection on the stone-taking net basket stored in the storage device according to the self-checking instruction, and generating an allowance detection result; storing and sorting the stone-taking baskets stored in the storage device according to the production date information and the allowance detection result, and generating an allowance evaluation result based on the allowance detection result; and displaying the residual evaluation result through the display device.

In a second aspect, the present application further provides an intelligent management system for a single-use endoscopic calculus removal basket, wherein the system comprises: the information acquisition module is used for acquiring basic information of the stone taking net basket, wherein the basic information comprises product model information, production date information and production batch information; the generation module is used for generating an identification code of the stone-taking net basket according to the basic information, wherein the identification code is uniquely corresponding to the stone-taking net basket; the entry module is used for entering the identification code and the basic information into the intelligent management system after identifying the stone-taking net basket based on the identification code, and storing the stone-taking net basket into the storage device; the allowance detection module is used for generating a self-checking instruction when the intelligent management system carries out basic information entry, carrying out allowance detection on the stone-taking storage net basket of the storage device according to the self-checking instruction and generating an allowance detection result; the sorting module is used for storing and sorting the stone-taking baskets stored in the storage device according to the production date information and the allowance detection result and generating an allowance evaluation result based on the allowance detection result;

and the display module is used for displaying the residual evaluation result through the display device.

One or more technical solutions provided in the present application have at least the following technical effects or advantages:

generating an identification code of the stone-taking net basket through basic information of the stone-taking net basket, identifying the stone-taking net basket by using the identification code, inputting the identification code and the basic information into the intelligent management system, and storing the stone-taking net basket into the storage device; when the intelligent management system carries out basic information entry, generating a self-checking instruction, carrying out storage stone taking basket allowance detection of the storage device according to the self-checking instruction, and generating an allowance detection result;

storing and sorting the stone-taking baskets stored in the storage device according to the production date information and the allowance detection result, and generating an allowance evaluation result based on the allowance detection result; and displaying the residual evaluation result through a display device. The comprehensiveness, the accuracy and the accuracy of the management of the disposable endoscope calculus-removing net basket are improved, and the management effect of the disposable endoscope calculus-removing net basket is further improved; meanwhile, the intelligent development of the disposable endoscope calculus removal basket management is promoted.

Drawings

FIG. 1 is a schematic flow chart of an intelligent management method for a disposable endoscope calculus removal basket according to the present application;

FIG. 2 is a schematic flow chart of the placement early warning by the early warning device according to the early warning information in the intelligent management method for the disposable endoscope calculus removing basket according to the present application;

FIG. 3 is a schematic flow chart of processing expired stone-picking baskets in the intelligent management method for disposable endoscope stone-picking baskets according to the present application;

fig. 4 is a schematic structural diagram of an intelligent management system of the disposable endoscope calculus removal basket.

Description of the reference numerals: an information acquisition module 11, a generation module 12, an entry module 13,

the device comprises a residual quantity detection module 14, a sorting module 15 and a display module 16.

Detailed Description

The application provides an intelligent management method and system for a disposable endoscope calculus removal basket. The technical problem that the management comprehensiveness of the disposable endoscope calculus removing basket in the prior art is not high, and the management effect of the disposable endoscope calculus removing basket is poor is solved. The comprehensiveness, the accuracy and the accuracy of the management of the disposable endoscope calculus-removing net basket are improved, and the management effect of the disposable endoscope calculus-removing net basket is further improved; meanwhile, the intelligent development of the disposable endoscope calculus removal basket management is promoted.

Example one

Referring to fig. 1, the present application provides an intelligent management method for a disposable endoscope calculus removal basket, wherein the method is applied to an intelligent management system for a disposable endoscope calculus removal basket, the system is in communication connection with a display device, a storage device, an image acquisition device and an early warning device, and the method specifically comprises the following steps:

step S100: acquiring basic information of the stone taking net basket, wherein the basic information comprises product model information, production date information and production batch information;

step S200: generating an identification code of the stone-taking basket according to the basic information, wherein the identification code is uniquely corresponding to the stone-taking basket;

specifically, the intelligent management system for the disposable endoscope calculus extraction basket acquires information of the calculus extraction basket in modes of big data query and the like, obtains basic information of the calculus extraction basket, identifies the basic information and determines an identification code of the calculus extraction basket. The basic information of the stone-taking net basket comprises product model information, production date information and production batch information of the stone-taking net basket. The calculus removing net basket can be any type of disposable endoscope calculus removing net basket which is scientifically managed by using an intelligent management system of the disposable endoscope calculus removing net basket. The identification code of the stone-taking basket is a way of identifying basic information of the stone-taking basket. Illustratively, the identification code of the stone-taking basket may be a bar code, a two-dimensional code, or the like. And the identification code is only corresponding to the stone-taking net basket. The technical effects of obtaining basic information and identification codes of the stone-taking net basket and laying a foundation for the follow-up intelligent management of the stone-taking net basket are achieved.

Step S300: after the stone-taking net basket is identified based on the identification code, the identification code and the basic information are input into the intelligent management system, and the stone-taking net basket is stored in the storage device;

specifically, the obtained basic information and identification code of the stone-taking net basket are uploaded to an intelligent management system of the disposable endoscope stone-taking net basket, and the stone-taking net basket is stored by a storage device. Wherein the storage device is in communication connection with an intelligent management system of the disposable endoscope calculus removal basket. The storage means may be a storage device capable of storing the stone-taking baskets in the prior art or a combination thereof. The basic information and the identification code of the stone-taking net basket are input into the intelligent management system, the stone-taking net basket is stored in the storage device, data support is provided for the intelligent management of the follow-up stone-taking net basket, and the technical effect of improving the management efficiency of the stone-taking net basket is achieved.

Step S400: when the intelligent management system carries out basic information entry, generating a self-checking instruction, carrying out allowance detection on the stone-taking net basket stored in the storage device according to the self-checking instruction, and generating an allowance detection result;

step S500: storing and sorting the stone-taking baskets stored in the storage device according to the production date information and the allowance detection result, and generating an allowance evaluation result based on the allowance detection result;

step S600: and displaying the residual evaluation result through the display device.

Specifically, when basic information of the stone-taking net basket is input by using the intelligent management system of the disposable endoscope stone-taking net basket, the intelligent management system of the disposable endoscope stone-taking net basket automatically obtains a self-checking instruction, carries out allowance detection on the stone-taking net basket in the storage device according to the self-checking instruction, obtains an allowance detection result, and stores and sequences the stone-taking net basket in the storage device by combining production date information of the stone-taking net basket. Meanwhile, a margin evaluation result is obtained according to the margin detection result and is displayed by a display device. The self-checking instruction is command information for detecting the allowance of the stone taking basket in the storage device. And the residual detection result comprises the residual quantity information of the stone basket in the storage device. The margin evaluation result comprises a margin detection result. The display device is in communication connection with an intelligent management system of the disposable endoscope calculus-taking basket. The display device can be a liquid crystal display, an LED (light-emitting diode) image-text display, an intelligent display panel and the like. The technical effects that the residue detection is carried out on the calculus removing basket of the storage device according to the self-checking instruction, a credible residue evaluation result is obtained, and the accuracy of calculus removing basket management is improved are achieved.

Further, step S500 of the present application further includes:

step S510: setting a temporary detection interval, and performing temporary detection on the stone-taking net basket of the intelligent management system through the temporary detection interval to generate a temporary detection result;

step S520: performing residue analysis on the stone-taking net basket of each model according to the temporary detection result and the residue detection result to generate a residue analysis result;

step S530: and generating a margin compensation model, a compensation quantity and compensation time based on the margin analysis result, and generating a margin evaluation result according to the margin compensation model, the compensation quantity and the compensation time.

Specifically, according to the temporary detection interval, temporary detection is carried out on the calculus removing baskets in the intelligent management system of the disposable endoscope calculus removing baskets, a temporary detection result is obtained, allowance analysis is carried out on each type of calculus removing baskets in the intelligent management system of the disposable endoscope calculus removing baskets by combining the allowance detection result, and an allowance analysis result is obtained. And after the margin analysis result is intelligently analyzed by the intelligent management system of the disposable endoscope calculus-taking basket, determining a margin compensation model, a compensation quantity and compensation time, and further obtaining a margin evaluation result. The provisional detection interval is time period information used for representing screening of the stone-taking net basket which is about to expire. And the temporary detection interval is determined by self-adaptive setting of an intelligent management system of the disposable endoscope calculus-removing basket according to actual conditions. The temporary detection result comprises data information such as product model information, production date information, production batch information and the like of the stone-taking net basket in the temporary detection area in an intelligent management system of the disposable endoscope stone-taking net basket. For example, the provisional detection interval may be 3 months, the stone-taking baskets in the intelligent management system for the disposable endoscope stone-taking baskets are provisionally detected according to the provisional detection interval, and the obtained provisional detection result includes data information such as product model information, production date information, production batch information and the like of the stone-taking baskets which are about to expire within 3 months. The allowance analysis result comprises an interim detection result and an allowance detection result of each type of calculus removing basket in the intelligent management system of the disposable endoscope calculus removing basket. The allowance evaluation result comprises allowance compensation models, compensation quantity and compensation time. The allowance compensation model comprises product model information of the temporary detection result. The compensation quantity comprises quantity information corresponding to the allowance compensation model. The compensation time comprises production date information corresponding to the allowance compensation model. The technical effects of obtaining a margin evaluation result with higher accuracy and further improving the management quality of the stone-taking net basket are achieved.

Further, step S520 in the present application further includes:

step S521: collecting historical use statistical information;

step S522: carrying out average use speed evaluation on the stone-taking net basket according to the historical use statistical information to generate an average use speed evaluation result;

step S523: establishing a temporal adjustment parameter based on the historical use statistical information, adjusting the average use speed evaluation result based on the temporal adjustment parameter, and generating an adjusted use speed evaluation result;

step S524: and performing the stone-taking net basket allowance analysis of each model through the adjustment using speed evaluation result, the temporary detection result and the allowance detection result to generate an allowance analysis result.

Specifically, the average use speed evaluation result is adjusted according to the temporal adjustment parameter to obtain an adjusted use speed evaluation result, and the provisional detection result and the margin detection result are combined to obtain a margin analysis result. Wherein the average use speed evaluation result is data information for evaluating the average use speed of the calculus extraction basket in the historical use statistical information by the intelligent management system of the disposable endoscope calculus extraction basket. The average use speed evaluation result can be used for representing the average use speed of the stone basket in historical use statistical information. The historical using statistical information comprises data information such as the using number and the using type of the stone-taking net basket in a certain historical time range. The temporal adjustment parameter is data information used for adjusting the average use speed evaluation result after the historical use statistical information is intelligently analyzed by the intelligent management system of the disposable endoscope calculus-taking basket. For example, the time adjustment parameter may be historical time information indicating that the number of used stone baskets is large in the historical usage statistics information. The adjustment use speed evaluation result comprises data information after adjustment of the average use speed evaluation result according to the time adjustment parameter. The allowance analysis result comprises an evaluation result of the adjustment use speed, an interim detection result and an allowance detection result of each type of the calculus removing baskets in the intelligent management system of the disposable endoscope calculus removing baskets. The technical effects of obtaining the margin analysis result with higher accuracy and further improving the reliability of the subsequently obtained margin evaluation result are achieved.

Further, as shown in fig. 2, after step S600, the method further includes:

step S710: acquiring images of the using positions of the stone-taking net basket through the image acquisition device to obtain an image acquisition set;

step S720: carrying out stone taking basket identification on the image acquisition set to obtain an identification result;

step S730: carrying out placement evaluation on the stone-taking net basket based on the identification result, and generating early warning information based on the placement evaluation result;

step S740: and carrying out placement early warning through the early warning device according to the early warning information.

Specifically, recognition results are obtained by carrying out stone-taking basket recognition on the image acquisition set, and placing evaluation of the stone-taking baskets is carried out according to the recognition results to obtain placing evaluation results. Furthermore, after the intelligent management system of the disposable endoscope calculus-taking basket intelligently analyzes the placement evaluation result, early warning information is generated and transmitted to an early warning device for early warning of placement. The image acquisition set comprises image acquisition of the using position of the stone-taking net basket by using an image acquisition device, and image data information is obtained. The recognition result comprises data information such as the type and the shape of the stone-taking net basket corresponding to the image acquisition set. The placing evaluation result is data information used for representing parameters such as the placing reasonability and adaptability of the stone-taking net basket. The early warning information is data information for early warning when the placing evaluation result is poor. The image acquisition device and the early warning device are in communication connection with the intelligent management system of the disposable endoscope calculus-removing basket. The image acquisition device can be equipment capable of acquiring images of the using position of the stone-taking basket. The early warning device can be an independent intelligent early warning device, a one-key emergency early warning device and the like. The intelligent technical effect that the early warning is put adaptively to the stone-taking net basket through the early warning device and the stone-taking net basket management is improved is achieved.

Further, step S730 of the present application further includes:

step S731: constructing a placing association characteristic set of the stone-taking net basket;

step S732: and performing placing correlation characteristic matching between the image acquisition set and the stone-taking basket based on the placing correlation characteristic set, and performing placing evaluation of the stone-taking basket based on a characteristic matching result.

Specifically, the placing associated features of the stone-taking baskets are matched with the image acquisition set through the placing associated feature set of the stone-taking baskets to obtain a feature matching result, and the placing evaluation of the stone-taking baskets is carried out according to the feature matching result to obtain a placing evaluation result. The placing associated feature set of the stone-taking net basket comprises a plurality of associated feature information of the use position and placing of the stone-taking net basket. The placement association feature set of the stone-taking net basket is preset and determined by an intelligent management system of the disposable endoscope stone-taking net basket through big data query. And the characteristic matching result comprises data information matched with the placing associated characteristic set of the stone-taking net basket in the image acquisition set. The placement evaluation result can also be used for representing the matching degree of the feature matching result. Illustratively, the higher the matching degree of the feature matching result, the higher the placement evaluation result. The technical effects that the stone-taking net basket is accurately placed and evaluated by utilizing the characteristic matching result, a placing evaluation result with high reliability is obtained, and the placing early warning accuracy is improved are achieved.

Further, as shown in fig. 3, after step S600, the method further includes:

step S810: judging whether the storage device has an expired stone-taking basket or not through the intelligent management system;

step S820: when the expired stone-taking net basket exists, the storage position of the expired stone-taking net basket is positioned through the identification code;

step S830: and after the positioning is finished, processing the expired stone-taking net basket.

Specifically, the intelligent management system of the disposable endoscope stone-taking net basket identifies the production date information and the quality guarantee period information of the stone-taking net basket one by one, and then judges whether the storage device has the expired stone-taking net basket or not. If the overdue stone-taking net basket exists in the storage device, the storage position of the overdue stone-taking net basket is located by the identification code, and after the location is completed, the overdue stone-taking net basket is automatically cleaned, discarded, deleted and the like. The technical effects of uniformly processing expired stone-taking baskets and improving the comprehensiveness of stone-taking basket management are achieved.

Further, after step S600, the method further includes:

step S910: obtaining information of a net basket for taking and taking stones;

step S920: carrying out model analysis on the information of the stone-taking net basket, and carrying out product positioning according to a model analysis result to obtain an optional product set;

step S930: screening the production date information of the selectable product set through the intelligent management system to obtain a screening result;

step S940: and matching corresponding identification codes based on the screening result, and positioning and taking out the target stone-taking net basket through the corresponding identification codes.

Specifically, in the actual management process of the disposable endoscope calculus removing basket, the calculus removing baskets of different models are required to be taken out due to different degrees of differences in the individual disease conditions, the individual physical characteristics and the like of patients. When the calculus removing basket needs to be taken, the intelligent management system of the disposable endoscope calculus removing basket automatically analyzes the model of the information of the calculus removing basket, and a model analysis result is obtained. Further, the model analysis result is utilized to carry out product positioning in the storage device, whether a stone-taking net basket corresponding to the model analysis result exists in the storage device or not is judged, an optional product set is determined, production date information of the optional product set is screened, and a screening result is obtained. For example, when the production date information of the selectable product set is screened, the stone-taking baskets which are close to expiration but not expired in the selectable product set can be selected preferentially, so that the waste of the stone-taking baskets is avoided. And then, matching the identification codes according to the screening result, and determining the corresponding identification codes. And in the storage device, positioning and taking out the target stone-taking net basket by using the corresponding identification code. The information of the taking and stone-taking net basket comprises product model information and production date information of the taking and stone-taking net basket. The fetching calculus-taking net basket is any calculus-taking net basket needed to be fetched in the intelligent management system of the disposable endoscope calculus-taking net basket. The fetching and fetching basket can be adaptively set and determined according to the actual fetching requirement of the fetching basket. The model analysis result is the product model information of the stone taking basket. The selectable product set comprises a stone-taking net basket which meets the model number analysis result in the storage device. The screening result comprises the stone-taking baskets meeting the requirement of taking the production date information of the stone-taking baskets in the selectable product set. The corresponding identification code is the identification code of the screening result. The target stone-taking net basket is a stone-taking net basket which accords with the corresponding identification code in the storage device. And the target stone taking basket meets the information of taking the stone taking basket. The technical effects of simplifying the taking process of the stone taking net basket, improving the taking efficiency of the stone taking net basket and further improving the comprehensiveness of stone taking net basket management are achieved.

In conclusion, the intelligent management method for the disposable endoscope stone-taking net basket has the following technical effects:

generating an identification code of the stone-taking basket through basic information of the stone-taking basket, identifying the stone-taking basket by using the identification code, inputting the identification code and the basic information into the intelligent management system, and storing the stone-taking basket into the storage device; when the intelligent management system carries out basic information entry, generating a self-checking instruction, carrying out allowance detection on the stone-taking net basket stored in the storage device according to the self-checking instruction, and generating an allowance detection result;

storing and sorting the stone-taking baskets stored in the storage device according to the production date information and the allowance detection result, and generating an allowance evaluation result based on the allowance detection result; and displaying the residual evaluation result through a display device. The comprehensiveness, the accuracy and the accuracy of the management of the disposable endoscope calculus-removing net basket are improved, and the management effect of the disposable endoscope calculus-removing net basket is further improved; meanwhile, the intelligent development of the disposable endoscope calculus-removing basket management is promoted.

Example two

Based on the same inventive concept as the intelligent management method of the disposable endoscope calculus removing basket in the previous embodiment, the invention further provides an intelligent management system of the disposable endoscope calculus removing basket, please refer to fig. 4, wherein the system comprises:

the information acquisition module 11 is used for acquiring basic information of the stone-taking net basket, wherein the basic information comprises product model information, production date information and production batch information;

the generation module 12 is configured to generate an identification code of the stone-taking basket according to the basic information, wherein the identification code uniquely corresponds to the stone-taking basket;

the entry module 13 is configured to, after the identification code identifies the stone-taking net basket based on the identification code, enter the identification code and the basic information into the intelligent management system, and store the stone-taking net basket in the storage device;

the allowance detection module 14, the allowance detection module 14 is configured to generate a self-check instruction when the intelligent management system performs entry of the basic information, perform allowance detection on the stone-fetching net basket stored in the storage device according to the self-check instruction, and generate an allowance detection result;

the sorting module 15 is configured to perform storage sorting of the stone-taking baskets stored in the storage device according to the production date information and the allowance detection result, and generate an allowance evaluation result based on the allowance detection result;

a display module 16, wherein the display module 16 is configured to display the residual evaluation result through the display device.

Further, the system further comprises:

the system comprises a taking information determining module, a stone taking information acquiring module and a stone taking information acquiring module, wherein the taking information determining module is used for acquiring information of a stone taking net basket;

the model analysis module is used for carrying out model analysis on the stone taking basket information and carrying out product positioning according to a model analysis result to obtain an optional product set;

the screening result determining module is used for screening the production date information of the selectable product set through the intelligent management system to obtain a screening result;

and the taking-out module is used for matching the corresponding identification codes based on the screening results and positioning and taking out the target calculus-taking net basket through the corresponding identification codes.

Further, the system further comprises:

the temporary detection module is used for setting a temporary detection interval, and performing temporary detection on the stone-taking net basket of the intelligent management system through the temporary detection interval to generate a temporary detection result;

the residue analysis module is used for carrying out residue analysis on the calculus-taking net basket of each model according to the temporary detection result and the residue detection result to generate a residue analysis result;

and the residual evaluation result determining module is used for generating a residual compensation model, a compensation quantity and compensation time based on the residual analysis result, and generating a residual evaluation result according to the residual compensation model, the compensation quantity and the compensation time.

Further, the system further comprises:

the historical information acquisition module is used for acquiring historical use statistical information;

the average using speed evaluation module is used for evaluating the average using speed of the stone-taking net basket according to the historical using statistical information to generate an average using speed evaluation result;

an adjustment use speed evaluation result determination module, configured to construct a temporal adjustment parameter based on the historical use statistical information, perform the average use speed evaluation result adjustment based on the temporal adjustment parameter, and generate an adjustment use speed evaluation result;

and the residual analysis result determining module is used for performing residual analysis on the stone-taking net basket of each model through the adjustment use speed evaluation result, the temporary detection result and the residual detection result to generate a residual analysis result.

Further, the system further comprises:

the image acquisition module is used for acquiring the images of the using positions of the stone-taking net basket through the image acquisition device to obtain an image acquisition set;

the recognition result determining module is used for carrying out stone-taking basket recognition on the image acquisition set to obtain a recognition result;

the early warning information determining module is used for carrying out placement evaluation on the stone-taking net basket based on the identification result and generating early warning information based on the placement evaluation result;

and the placing early warning module is used for placing early warning through the early warning device according to the early warning information.

Further, the system further comprises:

the correlated characteristic module is used for constructing a placing correlated characteristic set of the stone-taking net basket;

and the placement evaluation module is used for carrying out placement correlation characteristic matching between the image acquisition set and the stone-taking basket based on the placement correlation characteristic set and carrying out placement evaluation on the stone-taking basket based on a characteristic matching result.

Further, the system further comprises:

the judgment module is used for judging whether the storage device has an overdue stone-taking net basket or not through the intelligent management system;

the positioning module is used for positioning the storage position of the expired stone-taking net basket through the identification code when the expired stone-taking net basket exists;

and the processing module is used for processing the overdue stone-taking net basket after the positioning is finished.

The application provides an intelligent management method of a disposable endoscope calculus extraction basket, wherein the method is applied to an intelligent management system of the disposable endoscope calculus extraction basket, and the method comprises the following steps: generating an identification code of the stone-taking basket through basic information of the stone-taking basket, identifying the stone-taking basket by using the identification code, inputting the identification code and the basic information into the intelligent management system, and storing the stone-taking basket into the storage device; when the intelligent management system carries out basic information entry, generating a self-checking instruction, carrying out storage stone taking basket allowance detection of the storage device according to the self-checking instruction, and generating an allowance detection result; storing and sorting the stone-taking baskets stored in the storage device according to the production date information and the allowance detection result, and generating an allowance evaluation result based on the allowance detection result; and displaying the residual evaluation result through a display device. The technical problem of among the prior art to the management comprehensiveness that disposable endoscope got the stone basket is not high, and then cause the not good management effect of disposable endoscope got the stone basket is solved. The comprehensiveness, the accuracy and the accuracy of the management of the disposable endoscope calculus-removing net basket are improved, and the management effect of the disposable endoscope calculus-removing net basket is further improved; meanwhile, the intelligent development of the disposable endoscope calculus-removing basket management is promoted.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The specification and drawings are merely illustrative of the present application, and it is intended that the present invention cover modifications and variations of this invention provided they come within the scope of the invention and their equivalents.

Claims (5)

1. The intelligent management method of the disposable endoscope calculus-removing net basket is characterized by being applied to an intelligent management system, wherein the intelligent management system is in communication connection with a display device and a storage device, and the method comprises the following steps:

acquiring basic information of the stone taking net basket, wherein the basic information comprises product model information, production date information and production batch information;

generating an identification code of the stone-taking basket according to the basic information, wherein the identification code is uniquely corresponding to the stone-taking basket;

after the stone-taking net basket is identified based on the identification code, the identification code and the basic information are input into the intelligent management system, and the stone-taking net basket is stored in the storage device;

when the intelligent management system carries out basic information entry, generating a self-checking instruction, carrying out storage stone taking basket allowance detection of the storage device according to the self-checking instruction, and generating an allowance detection result;

storing and sorting the stone-taking baskets stored in the storage device according to the production date information and the allowance detection result, and generating an allowance evaluation result based on the allowance detection result;

displaying the residual evaluation result through the display device;

wherein the method further comprises:

obtaining information of a net basket for taking and taking stones;

analyzing the model of the information of the stone-taking net basket, and positioning a product according to the model analysis result to obtain an optional product set;

screening the production date information of the selectable product set through the intelligent management system to obtain a screening result;

matching corresponding identification codes based on the screening result, and carrying out positioning and taking out of the target stone-taking net basket through the corresponding identification codes;

wherein, the intelligent management system is in communication connection with the image acquisition device and the early warning device, and the method further comprises the following steps:

acquiring images of the using positions of the stone-taking net basket through the image acquisition device to obtain an image acquisition set;

carrying out stone taking basket identification on the image acquisition set to obtain an identification result;

carrying out placement evaluation on the stone-taking net basket based on the identification result, and generating early warning information based on the placement evaluation result;

carrying out placement early warning through the early warning device according to the early warning information;

wherein, the evaluation of putting of getting stone basket includes: constructing a placing associated characteristic set of the stone-taking net basket;

and performing placing correlation characteristic matching between the image acquisition set and the stone-taking basket based on the placing correlation characteristic set, and performing placing evaluation of the stone-taking basket based on a characteristic matching result.

2. The method of claim 1, wherein the method further comprises:

setting a temporary detection interval, and performing temporary detection on the stone-taking net basket of the intelligent management system through the temporary detection interval to generate a temporary detection result;

performing allowance analysis on the stone-taking net baskets of each model according to the temporary detection result and the allowance detection result to generate an allowance analysis result;

and generating a margin compensation model, a compensation quantity and compensation time based on the margin analysis result, and generating a margin evaluation result according to the margin compensation model, the compensation quantity and the compensation time.

3. The method of claim 2, wherein the method further comprises:

collecting historical usage statistical information;

carrying out average use speed evaluation on the stone-taking net basket according to the historical use statistical information to generate an average use speed evaluation result;

establishing a temporal adjustment parameter based on the historical use statistical information, adjusting the average use speed evaluation result based on the temporal adjustment parameter, and generating an adjustment use speed evaluation result;

and performing residue analysis on the calculus removing net basket of each model by adjusting the use speed evaluation result, the temporary detection result and the residue detection result to generate a residue analysis result.

4. The method of claim 1, wherein the method further comprises:

judging whether the storage device has an expired stone-taking basket or not through the intelligent management system;

when the expired stone-taking net basket exists, the storage position of the expired stone-taking net basket is positioned through the identification code;

and after the positioning is finished, processing the expired stone-taking net basket.

5. The intelligent management system of the disposable endoscope calculus-removing net basket is characterized in that the system is in communication connection with a display device and a storage device, and the system comprises:

the information acquisition module is used for acquiring basic information of the stone taking net basket, wherein the basic information comprises product model information, production date information and production batch information;

the generation module is used for generating an identification code of the stone-taking net basket according to the basic information, wherein the identification code is uniquely corresponding to the stone-taking net basket;

the entry module is used for entering the identification code and the basic information into an intelligent management system after identifying the calculus removing basket based on the identification code, and storing the calculus removing basket to the storage device;

the allowance detection module is used for generating a self-checking instruction when the intelligent management system carries out basic information entry, carrying out allowance detection on the stone-taking storage net basket of the storage device according to the self-checking instruction and generating an allowance detection result;

the sorting module is used for storing and sorting the stone-taking baskets stored in the storage device according to the production date information and the allowance detection result and generating an allowance evaluation result based on the allowance detection result;

the display module is used for displaying the residual evaluation result through the display device;

the system comprises a taking information determining module, a stone taking information acquiring module and a stone taking information acquiring module, wherein the taking information determining module is used for acquiring information of a stone taking net basket;

the model analysis module is used for carrying out model analysis on the stone taking basket information and carrying out product positioning according to a model analysis result to obtain an optional product set;

the screening result determining module is used for screening the production date information of the selectable product set through the intelligent management system to obtain a screening result;

the taking-out module is used for matching corresponding identification codes based on the screening results and carrying out positioning and taking out on the target calculus-taking net basket through the corresponding identification codes;

the image acquisition module is used for acquiring images of the using positions of the stone taking net baskets through the image acquisition device to obtain an image acquisition set;

the recognition result determining module is used for carrying out stone-taking basket recognition on the image acquisition set to obtain a recognition result;

the early warning information determining module is used for carrying out placement evaluation on the stone-taking net basket based on the identification result and generating early warning information based on the placement evaluation result;

the placing early warning module is used for placing early warning through an early warning device according to the early warning information;

the correlation characteristic module is used for constructing a placing correlation characteristic set of the stone-taking net basket;

and the placement evaluation module is used for carrying out placement correlation characteristic matching between the image acquisition set and the stone-taking basket based on the placement correlation characteristic set and carrying out placement evaluation on the stone-taking basket based on a characteristic matching result.

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