阅读说明：本技术 基于云平台大数据管理的仪器报废评估方法 (Instrument scrap evaluation method based on cloud platform big data management ) 是由 张平 张婷 张奥博 于 2021-07-14 设计创作，主要内容包括：本发明提供一种基于云平台大数据管理的仪器报废评估方法,属于信息化管理领域,所述评估方法是利用云平台下载存储整合修正基准运行状态数据,存储仪器的当前生命数据、当前运行数据和当前运行状态数据；利用运行评估子系统对当前生命数据、当前运行数据与基准生命数据和基准运行数据做相应对比分析,获取当前运行状态数据,再与基准运行状态数据对比分析,获得评价结果,并输出相应警报,运维人员对发出警报的仪器进行人工判断,并将判断结果重新反馈至运行评估子系统,传输至云平台。本发明利用该评估系统能够及时从网络和仪器运行过程中获取仪器相关数据,对仪器是否需要维修/报废做出判断,及时发现仪器/设备故障,进行报废处理。(The invention provides an instrument scrapping evaluation method based on cloud platform big data management, which belongs to the field of informatization management, and the evaluation method is characterized in that a cloud platform is used for downloading, storing, integrating and correcting benchmark running state data, and storing current life data, current running data and current running state data of an instrument; and performing corresponding comparison analysis on the current life data and the current operation data, the reference life data and the reference operation data by using the operation evaluation subsystem to obtain the current operation state data, performing comparison analysis on the current operation data and the reference operation state data to obtain an evaluation result, outputting a corresponding alarm, manually judging the instrument giving the alarm by the operation and maintenance personnel, feeding the judgment result back to the operation evaluation subsystem again, and transmitting the judgment result to the cloud platform. The invention can acquire the related data of the instrument from the network and the running process of the instrument in time by utilizing the evaluation system, judge whether the instrument needs to be maintained/scrapped, find the fault of the instrument/equipment in time and carry out scrapping treatment.)

1. An instrument scrapping evaluation method based on cloud platform big data management is characterized in that an instrument scrapping evaluation system based on cloud platform big data management is used for evaluating instruments in an area, and the instrument scrapping evaluation system based on cloud platform big data management comprises the following steps: the system comprises a tracing subsystem, an operation monitoring subsystem, an operation evaluation subsystem and a cloud platform;

the tracing subsystem is connected with the instrument and the cloud platform and used for acquiring current life data of the instrument from detection, use, overhaul to scrapping and storing the current life data to the cloud platform;

the operation monitoring subsystem is connected with the instrument and the cloud platform and used for monitoring the operation state of the instrument, acquiring the current operation data of the instrument and storing the current operation data to the cloud platform;

the cloud platform is used for periodically downloading and storing the standard life data, the standard operation data and the standard operation state data published by the official, and performing real-time correction; storing the current life data, the current operation data and the current operation state data of the instrument by connecting the tracing subsystem, the operation monitoring subsystem and the operation evaluation subsystem; carrying out periodic classification and arrangement on the current life data and the current operation data, and correcting the reference life data, the reference operation data and the reference operation state data in real time to obtain the corresponding reference operation state data when the instrument is worn/scrapped;

the operation evaluation subsystem is connected with the cloud platform and used for evaluating according to the current life data and the current operation data, analyzing to obtain current operation state data and storing the current operation state data to the cloud platform; and comparing and analyzing the current running state data and the reference running state data, and giving out an evaluation result of maintenance/scrapping or normal running according to the comparison result.

2. The instrument scrapping evaluation method based on cloud platform big data management according to claim 1, wherein the instrument scrapping evaluation system based on cloud platform big data management further comprises an inquiry retrieval subsystem, wherein the inquiry retrieval subsystem is connected with the cloud platform and is used for inquiring current life data, current operation state data, reference life data, reference operation data and reference operation state data of an instrument, tracking and tracing the instrument.

3. The cloud platform big data management-based instrument scrapping assessment method according to claim 2, wherein the query retrieval subsystem is provided with a computer query retrieval interface, an intelligent terminal query retrieval interface and a telephone voice query retrieval interface, and the interfaces are respectively in information connection with the cloud platform through the operation assessment subsystem.

4. The instrument scrapping evaluation method based on cloud platform big data management according to any one of claims 1-3, wherein the tracing subsystem comprises an instrument detection management module, an instrument installation and use management module and an instrument overhaul/scrapping management module, and the modules are respectively in information connection with the cloud platform.

5. The instrument scrapping assessment method based on cloud platform big data management according to any one of claims 1-3, wherein the operation assessment subsystem comprises a component assessment module, an overall assessment module, an alarm module and a query retrieval module; the modules are respectively in information connection with the cloud platform;

the component evaluation module is also connected with the integral evaluation module in a one-way information mode;

the integral evaluation module is in information connection with the alarm module;

and the query retrieval module is connected with the query retrieval subsystem.

6. The cloud platform big data management-based instrument scrapping assessment method according to claim 5, wherein the integral assessment module is used for integrally assessing the instrument according to the assessment result of the component assessment module to determine the running state of the instrument.

7. The instrument scrappage assessment method based on cloud platform big data management according to claim 1, 2, 3 or 5, characterized by comprising the following steps:

the cloud platform periodically downloads and stores official reference life data, reference operation data and reference operation state data, integrates and analyzes the reference operation state data to obtain instrument loss/scrappage data, and corrects the instrument loss/scrappage data in real time;

acquiring current life data of the instrument through the tracing subsystem, and transmitting the current life data to the cloud platform for storage;

when the instrument runs, the running and running state of the monitoring instrument is tracked in real time through the running monitoring subsystem, the current running data of the instrument is obtained, and the current running data is transmitted to the cloud platform to be stored; the operation evaluation subsystem acquires reference life data, reference operation data and reference operation state data from the cloud platform;

performing corresponding comparative analysis on the current life data and the current operation data with the reference life data and the reference operation data respectively to obtain current operation state data;

acquiring corresponding reference operation state data when the instrument is worn/scrapped from the cloud platform again, comparing and analyzing the reference operation state data with the current operation state data to obtain an evaluation result of the instrument needing to be maintained/scrapped or normally operating, outputting a corresponding alarm, manually judging the instrument needing to be maintained/scrapped indicated by the alarm by operation and maintenance personnel again, feeding back the manually judged result to the operation evaluation subsystem again to obtain the current fault reference operation state data, the current fault reference life data and the current fault reference operation data, retransmitting the data to the cloud platform for storage, and integrating the data with the reference life data, the reference operation data and the reference operation state data before manual judgment respectively to form the reference operation state data, the reference life data and the reference operation data during next use.

8. The instrument scrapping evaluation method based on cloud platform big data management as claimed in claim 7, wherein the evaluation method further comprises inputting information to be queried in the query retrieval subsystem, and directionally querying current life data, current operation state data, reference life data, reference operation data and reference operation state data of the instrument by operating the evaluation subsystem.

Technical Field

The invention relates to instrument management, in particular to an instrument scrappage assessment method based on cloud platform big data management.

Background

With the shift of production, operation and management to integration, a plurality of problems exist in the use and management process of instruments/equipment in a laboratory or an enterprise; some devices lose purchase and installation information in the using process, so that the original parameters of the devices cannot be obtained; in the use process, some instruments/equipment have faults, so that the measured data are deviated and cannot be found in time, and experimental personnel have errors in the judgment of experimental results; in the use process of some instruments, the instruments reach the scrap standard and cannot be known in time, so that the continuous maintenance is caused, resources are wasted, and the like. In the prior art, management of instruments/equipment in a laboratory or an enterprise is mainly performed by manual registration, and whether the instruments/equipment need to be maintained or scrapped cannot be timely known.

Disclosure of Invention

Aiming at the problems, the invention provides an instrument scrapping evaluation method based on cloud platform big data management.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an instrument scrapping evaluation method based on cloud platform big data management is characterized in that an instrument scrapping evaluation system based on cloud platform big data management is used for evaluating instruments in an area, and the instrument scrapping evaluation system based on cloud platform big data management comprises the following steps: the system comprises a tracing subsystem, an operation monitoring subsystem, an operation evaluation subsystem and a cloud platform;

the tracing subsystem is connected with the instrument and the cloud platform and used for acquiring current life data of the instrument from detection, use, overhaul to scrapping and storing the current life data to the cloud platform;

the operation monitoring subsystem is connected with the instrument and the cloud platform and used for monitoring the operation state of the instrument, acquiring the current operation data of the instrument and storing the current operation data to the cloud platform;

the cloud platform is used for periodically downloading and storing the standard life data, the standard operation data and the standard operation state data published by the official, and performing real-time correction; storing the current life data, the current operation data and the current operation state data of the instrument by connecting the tracing subsystem, the operation monitoring subsystem and the operation evaluation subsystem; carrying out periodic classification and arrangement on the current life data and the current operation data, and correcting the reference life data, the reference operation data and the reference operation state data in real time to obtain the corresponding reference operation state data when the instrument is worn/scrapped;

the operation evaluation subsystem is connected with the cloud platform and used for evaluating according to the current life data and the current operation data, analyzing to obtain current operation state data and storing the current operation state data to the cloud platform; and comparing and analyzing the current running state data and the reference running state data, and giving out an evaluation result of maintenance/scrapping or normal running according to the comparison result.

Furthermore, the instrument scrapping evaluation system based on cloud platform big data management further comprises an inquiry and retrieval subsystem, wherein the inquiry and retrieval subsystem is connected with the cloud platform and is used for inquiring the current life data, the current operation state data, the reference life data, the reference operation data and the reference operation state data of the instrument, and tracking and tracing the instrument.

Furthermore, the query retrieval subsystem is provided with a computer query retrieval interface, an intelligent terminal query retrieval interface and a telephone voice query retrieval interface, and the interfaces are respectively connected with the cloud platform information through the operation evaluation subsystem.

Furthermore, the tracing subsystem comprises a detection management module, an installation and use management module and an overhaul/scrap management module of the instrument, and the modules are respectively in information connection with the cloud platform.

Further, the operation evaluation subsystem comprises a component evaluation module, an overall evaluation module, an alarm module and a query retrieval module; the modules are respectively in information connection with the cloud platform;

the component evaluation module is also connected with the integral evaluation module in a one-way information mode;

the integral evaluation module is in information connection with the alarm module;

and the query retrieval module is connected with the query retrieval subsystem.

Further, the overall evaluation module performs overall evaluation on the instrument according to the evaluation result of the component evaluation module to determine the running state of the instrument.

Further, the evaluation method comprises the following steps:

the cloud platform periodically downloads and stores official reference life data, reference operation data and reference operation state data, integrates and analyzes the reference operation state data to obtain instrument loss/scrappage data, and corrects the instrument loss/scrappage data in real time;

acquiring current life data of the instrument through the tracing subsystem, and transmitting the current life data to the cloud platform for storage;

when the instrument runs, the running and running state of the monitoring instrument is tracked in real time through the running monitoring subsystem, the current running data of the instrument is obtained, and the current running data is transmitted to the cloud platform to be stored;

the operation evaluation subsystem acquires reference life data, reference operation data and reference operation state data from the cloud platform;

performing corresponding comparative analysis on the current life data and the current operation data with the reference life data and the reference operation data respectively to obtain current operation state data;

acquiring corresponding reference operation state data when the instrument is worn/scrapped from the cloud platform again, comparing and analyzing the reference operation state data with the current operation state data to obtain an evaluation result of the instrument needing to be maintained/scrapped or normally operating, outputting a corresponding alarm, manually judging the instrument needing to be maintained/scrapped indicated by the alarm by operation and maintenance personnel again, feeding back the manually judged result to the operation evaluation subsystem again to obtain the current fault reference operation state data, the current fault reference life data and the current fault reference operation data, retransmitting the data to the cloud platform for storage, and integrating the data with the reference life data, the reference operation data and the reference operation state data before manual judgment respectively to form the reference operation state data, the reference life data and the reference operation data during next use.

Furthermore, the evaluation method also comprises the steps of inputting information to be inquired in the inquiry retrieval subsystem, and directionally inquiring the current life data, the current operation state data, the reference life data, the reference operation data and the reference operation state data of the instrument by operating the evaluation subsystem.

The instrument scrappage assessment method based on cloud platform big data management has the beneficial effects that:

the invention successfully constructs an instrument/equipment scrap evaluation model by designing a set of instrument scrap evaluation system which carries out real-time tracking management on instruments/equipment of a laboratory/enterprise and is based on cloud platform big data management, can acquire relevant data of the instruments from the operation process of a network and the instruments in time by utilizing the evaluation system, judges whether the instruments need to be maintained/scrapped, informs an operator, and the operator inspects and confirms the instruments which need to be scrapped in the field and carries out targeted correction on the relevant data of the instruments by feeding back the result of manual judgment to the cloud platform again so as to provide more accurate scrap index reference, thereby more accurately evaluating the true state of the instruments/equipment, finding out the faults of the instruments/equipment in time, carrying out scrap processing and reducing unnecessary maintenance resource waste, the error of the experimental result is reduced;

the evaluation system of the invention can also look up the data of any instrument at any time to know the state of the instrument.

Drawings

Fig. 1 is a schematic diagram of an instrument scrappage evaluation system based on cloud platform big data management in an embodiment of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1, this embodiment is an instrument scrapping evaluation method based on cloud platform big data management, which is performed by using an instrument scrapping evaluation system based on cloud platform big data management, where the instrument scrapping evaluation system based on cloud platform big data management includes: the system comprises a tracing subsystem, an operation monitoring subsystem, an operation evaluation subsystem, a cloud platform and an inquiry and retrieval subsystem.

The tracing subsystem is connected with the instrument and the cloud platform and used for acquiring life data of the instrument from detection, use, overhaul to scrapping and storing the life data to the cloud platform; the tracing subsystem comprises a detection management module, an installation and use management module and an overhaul/scrap management module of the instrument, the modules are in information connection with the cloud platform respectively, current life data of the instrument in different periods are acquired through different management modules, and the current life data are transmitted to the cloud platform for subsequent judgment. The detection management module of the instrument is used for detecting various factory settings and parameters of the collecting instrument, such as detecting and collecting wavelength range, wavelength accuracy, stray light parameters and the like in an ultraviolet spectrophotometer; the installation and use management module is used for detecting installation positions, user information and the like; the overhaul/scrap management module is used for detecting various parameters of the instrument in the using process, such as the collection wavelength range, the wavelength accuracy, the stray light parameters and the like of the ultraviolet spectrophotometer after the instrument is used for a period of time.

And the operation monitoring subsystem is connected with the instrument and the cloud platform and used for monitoring the operation state of the instrument, acquiring the operation data of the instrument and storing the operation data to the cloud platform.

The cloud platform is used for periodically downloading and storing the standard life data, the standard operation data and the standard operation state data published by the official, and performing real-time correction; the current life data and the current operation data of the instrument are stored by connecting the tracing subsystem, the monitoring subsystem and the operation evaluation subsystem; and carrying out periodic classification and arrangement on the current life data, the current operation data and the current operation state data, and correcting the reference life data, the reference operation data and the reference operation state data in real time to obtain corresponding operation state data when the instrument is worn/scrapped. The operation evaluation subsystem is connected with the cloud platform and used for evaluating according to the current life data and the current operation data, analyzing to obtain the current operation state data of the instrument and storing the current operation state data to the cloud platform; then, comparing and analyzing the current running state data and the reference running state data, and giving out an evaluation result of maintenance/scrapping or normal running according to the comparison result; the operation evaluation subsystem comprises a component evaluation module, an overall evaluation module, an alarm module and a query retrieval module; the modules are respectively in information connection with the cloud platform. The component evaluation module is also connected with the overall evaluation module in a one-way information mode, namely, the information transmission from the component evaluation module to the overall evaluation module is completed; the integral evaluation module is in information connection with the alarm module; the query retrieval module is connected with the query retrieval subsystem; information transfer takes place via these unidirectional or bidirectional information connections. The component evaluation module is used for evaluating evaluation of component levels, and the evaluation of the components comprises a current transformer, a voltage transformer, a secondary circuit and the like; the current operation data and the evaluation result acquired by the component evaluation module are respectively transmitted to the cloud platform and the integral evaluation module; and the integral evaluation module evaluates integral parameters of the acquisition instrument, such as a series of parameters of a collection wavelength range, wavelength accuracy, stray light parameters and the like of the ultraviolet spectrophotometer, integrally evaluates the instrument according to the current operation data and the evaluation result of the component evaluation module, and finally determines the current operation state data. After the integral evaluation module judges, the current operation state data and the judgment result are transmitted to the cloud platform, and the judgment result (namely the information of the instrument needing to be maintained/scrapped) is sent to the alarm module to send out a corresponding alarm; the alarm module can also feed back the manual judgment result made by the operation and maintenance personnel to the integral evaluation module again and upload the result to the cloud platform.

The query retrieval subsystem is connected with the cloud platform and is used for querying life data, operation data and operation state data of the instrument and tracking and tracing the instrument; the query retrieval subsystem is provided with a computer query retrieval interface, an intelligent terminal query retrieval interface and a telephone voice query retrieval interface, and can be used for calling data information on the cloud platform through the query retrieval modules in the operation evaluation subsystem through the query retrieval interfaces to query the real-time state of the instrument.

The instrument scrapping evaluation method based on cloud platform big data management in the embodiment comprises the following steps:

the cloud platform periodically downloads and stores official reference life data, reference operation data and reference operation state data, integrates and analyzes the reference operation state data to obtain instrument loss/scrappage data, and corrects the instrument loss/scrappage data in real time;

acquiring life data of the instrument through the tracing subsystem, and transmitting the current life data to the cloud platform for storage;

when the instrument runs, the running and running state of the monitoring instrument is tracked in real time through the running monitoring subsystem, the current running data of the instrument is obtained, and the current running data is transmitted to the cloud platform to be stored;

the operation evaluation subsystem acquires reference life data, reference operation data and reference operation state data from the cloud platform, and performs corresponding comparison analysis on the current life data and the current operation data respectively with the reference life data and the reference operation data to acquire the current operation state data;

acquiring corresponding reference operation state data when the instrument is worn/scrapped from the cloud platform again, comparing and analyzing the reference operation state data with the current operation state data to obtain an evaluation result of the instrument needing to be maintained/scrapped or normally operating, outputting a corresponding alarm, manually judging the instrument needing to be maintained/scrapped indicated by the alarm by operation and maintenance personnel again, feeding back the manually judged result to the operation evaluation subsystem again to obtain the current fault reference operation state data, the current fault reference life data and the current fault reference operation data, retransmitting the data to the cloud platform for storage, and integrating the data with the reference life data, the reference operation data and the reference operation state data before manual judgment respectively to form the reference operation state data, the reference life data and the reference operation data during next use.

Meanwhile, the evaluation method can also input information to be queried in the query retrieval subsystem, the data information on the cloud platform is called through a query retrieval module in the operation evaluation subsystem, and the current life data, the current operation state data, the reference life data, the reference operation data and the reference operation state data of the directional query instrument (wherein the current life data, the current operation state data, the reference life data, the reference operation data and the reference operation state data further comprise historical current life data, historical current operation state data, historical benchmark life data, historical benchmark operation data and historical benchmark operation state data).

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.