CN116757606A - Inventory metering asset lean management system based on intelligent Internet of things - Google Patents

Abstract

The application relates to an inventory metering asset lean management system based on an intelligent Internet of things, which comprises an inventory management and control module and an inventory checking APP, wherein the inventory management and control module comprises a storehouse risk analysis module, an inventory task management module and an inventory monitoring management module; the checking and checking APP is used for a metering inventory checking tool based on an ultrahigh frequency RFID batch recognition technology, a handheld ultrahigh frequency recognition device is adopted, and electronic tags in the metering device are utilized to realize rapid batch recognition of inventory metering assets, and four functions of batch checking, piece-by-piece checking, searching and positioning and warehouse in-out scanning are realized.

Description

Inventory metering asset lean management system based on intelligent Internet of things

Technical Field

The application relates to the technical field of medical appliances, in particular to an inventory metering asset lean management system based on an intelligent Internet of things.

Background

In the prior art, the flexibility, expandability, safety and concurrent processing capability of the inventory metering asset management system are insufficient, the integration degree with the enterprise internal business application system is also insufficient, the improvement space exists in the aspects of reliability and maintainability, the product universality is poor, the adjustment can not be carried out according to the monitoring requirements of different metering centers, the future data requirements and the function requirements are difficult to deal with, the expansibility is insufficient, and the development requirements of enterprises can not be met.

Disclosure of Invention

The application aims to provide an inventory metering asset lean management system based on an intelligent Internet of things, and aims to solve the technical problems of at least improving flexibility, expandability, safety and concurrent processing capacity of the inventory metering asset management system, realizing comprehensive integration with an enterprise internal business application system and improving reliability, maintainability, product universality and expansibility.

In order to achieve the above purpose, the application provides an inventory metering asset lean management system based on an intelligent Internet of things, which comprises an inventory management and control module and an inventory checking APP, wherein the inventory management and control module comprises a warehouse risk analysis module, an inventory task management module and an inventory monitoring management module; the warehouse risk analysis module is used for providing the result of the visual inventory risk evaluation model, displaying the comprehensive score and ranking of each city and county company, and provincial company management personnel can directly issue a inventory task according to the evaluation result; displaying the inventory duration statistics of the qualified inventory in the inventory and the inventory duration statistics of the to-be-shunted inventory, and displaying the abnormal disassembly and assembly, repeated resetting and abnormal scrapped asset statistics information; the inventory task management module is used for managing inventory tasks; the inventory monitoring management module is used for monitoring inventory execution conditions, displaying inventory results, importing inventory results, displaying inventory history records and generating asset management reports; the checking and checking APP is used for a metering inventory checking tool based on an ultrahigh frequency RFID batch identification technology, a handheld ultrahigh frequency identification device is adopted, and electronic tags in the metering device are utilized to realize rapid batch identification of inventory metering assets, and four functions of batch checking, piece-by-piece checking, searching and positioning and warehouse in-out scanning are realized.

Preferably, the inventory task management module allows the range of the managed inventory tasks to be different according to the different units of the manager.

Preferably, the provincial company metering asset manager can manage inventory tasks within the whole provincial range, the municipal company metering asset manager can manage inventory tasks within the local company and the county company under jurisdiction, and the county company can manage inventory tasks within the local company.

Preferably, the types of the inventory tasks include periodic inventory tasks and targeted inventory tasks; the targeted inventory task further comprises a system automatic generation task and a manual generation task.

Preferably, the system provides the functions of task addition, task deletion, task modification, task issuing and task detail display for different task types.

Preferably, the storehouse risk analysis module comprises an inventory risk overview module, a unit monitoring signboard and a predicted risk asset module, wherein the inventory risk overview module is used for displaying the analysis result of the big data model and displaying the risk score, the risk grade, the home market ranking, the full-province ranking and the full-province ranking change of each unit; counting units of the first few bits and the last few bits of the scoring rank; counting the number of the abnormal assets in the whole province, wherein the number comprises the number of stock exceeding, exceeding to-be-shunted processing, abnormal assembly and disassembly, multiple accessories and abnormal scrapping; the unit monitoring board is used for displaying the current unit warehouse risk score, the current inventory information, the latest and historical inventory results and the current warehouse abnormal equipment information, and allowing the unit monitoring board to issue inventory tasks; the prediction risk asset module is used for displaying an analysis interface of the asset evaluation model, displaying the quantity of high-level assets in a city and county company grouping statistical mode, and deriving Excel from detail data.

Preferably, the inventory task management module comprises an inventory task creation module, an inventory task issuing module and an inventory announcement module; the inventory task creation module is used for creating inventory tasks of different types; the inventory task issuing module is used for executing issuing operation on the generated inventory task and supporting one-key issuing and batch issuing; the inventory announcement module is used for generating corresponding inventory announcements after issuing inventory tasks; the content of the inventory announcement corresponds to the issued inventory task.

Preferably, the different types of inventory task generation mechanisms are different; the periodic full-disc task type is that all stores in the whole province execute inventory tasks; the scoring inventory task type is that inventory tasks are automatically generated for the inventory with low scoring results according to the inventory risk evaluation results; the secondary inventory task type is to automatically generate inventory tasks for the storehouses with low inventory consistency according to the last inventory result; the type of the spot check checking task is that staff of all levels of provinces, cities and counties manually generate the checking task for the company or the company under the control of the staff.

Preferably, the inventory monitoring management module comprises an inventory execution monitoring module, an inventory result importing module, an inventory history record module and an asset management reporting module; the inventory execution monitoring module is used for monitoring inventory execution conditions of the current month and counting and chart result display of inventory task execution conditions of companies in the current month of province, city and county; the inventory result module is used for displaying the execution results of all inventory tasks in the whole province, generating and exporting inventory reports and exporting inventory result detail information; the checking result importing module is used for importing checking results manually and importing checking result encryption files in checking work; the inventory history recording module is used for recording all inventory history data of the full province, displaying system inventory, the number of objects, inventory consistency, the market ranking of consistency and the full province ranking of consistency of the past inventory, and providing a new inventory function according to units and time periods; the asset management reporting module is configured to generate an asset management report.

Preferably, the statistics data in the execution result displayed by the inventory result module includes: system inventory, real object quantity, inventory consistency, consistency home market ranking and consistency full province ranking.

Preferably, the provincial company metering asset manager can check the inventory task execution condition of each company in the whole provincial range; the city company metering asset manager can check the inventory task execution condition of the company home and the county under jurisdiction; the county company can check the task execution condition of the inventory of the company home and the power supply station under the jurisdiction.

The counting result module is used for displaying the execution results of all counting tasks in the whole province, and the statistical data comprise: system inventory, real object quantity, inventory consistency, consistency home market ranking, consistency full province ranking. Inventory reports may be generated and derived, and inventory result detail information may be derived.

Preferably, the asset management report can be used as an asset report, and the whole information of the asset is counted in a certain period in the statistical display area; the asset management report shows the number of the co-executed inventory tasks in the month or the season, the total number of the co-inventory assets and the average inventory consistency, and can click to view the asset management month report or the season report.

Preferably, the batch inventory specifically includes:

(1) Acquiring an inventory task:

supporting an intranet access checking tool, and downloading a checking task from a checking management and control module; if the intranet access checking tool is not supported, locally acquiring an encrypted checking task;

(2) Performing inventory:

performing batch inventory on the warehouse assets by adopting an FRID batch identification technology, comparing the scanned asset bar codes with inventory tasks, and displaying inventory results in real time;

(3) Counting results:

according to the bar codes of the real objects and the system file information, automatically calculating the checking result, and counting the information of the task number, the real objects and the result difference according to the equipment category; the checking result is stored in a local encryption mode, and a tool capable of networking stores the checking result to a checking management and control module.

Preferably, the checking is used for checking whether the system file is consistent with the physical file, and displaying the file information stored by the system after scanning the asset; if the system file does not match the real object, the real object file is modified and the result is uploaded to the inventory management and control module.

Preferably, the searching and positioning is to utilize the principle of ultrahigh frequency RFID recognition, the closer the distance is, the stronger the recognition signal is, the more the recognition times are, the positioning of a single asset can be realized by utilizing the principle, the dynamic display and the sound intensity and the sound frequency control are carried out on the recognized asset, and the staff is guided to rapidly position the position of the asset.

Preferably, the warehouse-in and warehouse-out scanning is to acquire a warehouse-in and warehouse-out task of the marketing system through a metering service bus, use a checking and checking tool to identify the bar codes of the warehouse-in and warehouse-out assets in batches, send the identified bar code information to a checking and controlling module to check the warehouse-in assets, and upload the warehouse-in and warehouse-out result to the marketing system through the metering service bus.

Advantageous effects

Compared with the prior art, the application has the beneficial effects that:

the inventory metering asset lean management system based on the intelligent Internet of things adopts a modularized design, has good universality, can be adjusted according to the monitoring requirements of different metering centers, can fully cope with future data requirements and functional requirements, and enables hardware to obtain good expansibility. The technical advanced and maturity combined J2EE multi-layer technical framework is adopted, so that the flexibility, expandability, safety and concurrent processing capacity of the system are improved, and meanwhile, the comprehensive integration with the enterprise internal business application system is realized through an integrated platform.

Drawings

The accompanying drawings are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate and do not limit the application.

Fig. 1 is a schematic diagram of an application architecture of the present application.

Fig. 2 is a schematic diagram of the technical route of the present application.

Detailed Description

The present application is described in more detail below to facilitate an understanding of the present application.

As shown in fig. 1 and fig. 2, the inventory metering asset lean management system based on the intelligent internet of things comprises an inventory management and control module and an inventory checking APP, wherein the inventory management and control module comprises a storehouse risk analysis module, an inventory task management module and an inventory monitoring management module;

the warehouse risk analysis module is used for providing the result of the visual inventory risk evaluation model, displaying the comprehensive score and ranking of each city and county company, and provincial company management personnel can directly issue a inventory task according to the evaluation result; displaying the inventory duration statistics of the qualified inventory in the inventory and the inventory duration statistics of the to-be-shunted inventory, and displaying the abnormal disassembly and assembly, repeated resetting and abnormal scrapped asset statistics information;

the inventory task management module is used for managing inventory tasks;

the manageable inventory task ranges are different according to the different units of the manager. The provincial company metering asset manager can manage inventory tasks within the whole provincial range, the municipal company metering asset manager can manage inventory tasks within the range of the local company and the county company under the jurisdiction, and the county company can manage inventory tasks within the range of the local company.

The inventory task types include: periodic inventory tasks and targeted inventory tasks; the targeted inventory task further comprises: the system automatically generates tasks and manually generates tasks. Aiming at different task types, the system provides functions of task addition, task deletion, task modification, task issuing, task details and the like.

The inventory monitoring management module is used for monitoring inventory execution conditions, displaying inventory results, importing inventory results, displaying inventory history records and generating asset management reports;

the checking and checking APP is used for a metering inventory checking tool based on an ultrahigh frequency RFID batch identification technology, a handheld ultrahigh frequency identification device is adopted, and electronic tags in the metering device are utilized to realize rapid batch identification of inventory metering assets, and four functions of batch checking, piece-by-piece checking, searching and positioning and warehouse in-out scanning are realized.

Preferably, the storehouse risk analysis module comprises an inventory risk overview module, a unit monitoring signboard and a predicted risk asset module, wherein the inventory risk overview module is used for displaying the analysis result of the big data model and displaying the risk score, the risk grade, the home market ranking, the full-province ranking and the full-province ranking change of each unit; counting units of the first few bits and the last few bits of the scoring rank; counting the number of the abnormal assets in the whole province, wherein the number comprises the number of stock exceeding, exceeding to-be-shunted processing, abnormal assembly and disassembly, multiple accessories and abnormal scrapping; the unit monitoring board is used for displaying the current unit warehouse risk score, the current inventory information, the latest and historical inventory results and the current warehouse abnormal equipment information, and allowing the unit monitoring board to issue inventory tasks; the prediction risk asset module is used for displaying an analysis interface of the asset evaluation model, displaying the quantity of high-level assets in a city and county company grouping statistical mode, and deriving Excel from detail data.

Preferably, the inventory task management module comprises an inventory task creation module, an inventory task issuing module and an inventory announcement module;

the inventory task creation module is used for creating inventory tasks of different types;

the different types of inventory task generation mechanisms are different. The periodic full-disc task type is that all stores in the whole province execute inventory tasks; the scoring inventory task type is that inventory tasks are automatically generated for the inventory with low scoring results according to the inventory risk evaluation results; the secondary inventory task type is to automatically generate inventory tasks for the storehouses with low inventory consistency according to the last inventory result; the type of the spot check checking task is that staff of all levels of provinces, cities and counties manually generate the checking task for the company or the company under the control of the staff.

The inventory task issuing module is used for executing issuing operation on the generated inventory task, and the system supports one-key issuing and batch issuing.

The inventory announcement module is used for generating corresponding inventory announcements after issuing inventory tasks; the content of the inventory announcement corresponds to the issuing inventory task.

Preferably, the inventory monitoring management module comprises an inventory execution monitoring module, an inventory result importing module, an inventory history record module and an asset management reporting module;

the inventory execution monitoring module is used for monitoring inventory execution conditions of the current month and carrying out statistics and chart result display on inventory task execution conditions of companies in the current month of province, city and county.

The provincial company metering asset manager can check the inventory task execution condition of each company in the whole provincial range; the city company metering asset manager can check the inventory task execution condition of the company home and the county under jurisdiction; the county company can check the task execution condition of the inventory of the company home and the power supply station under the jurisdiction.

The counting result module is used for displaying the execution results of all counting tasks in the whole province, and the statistical data comprise: system inventory, real object quantity, inventory consistency, consistency home market ranking, consistency full province ranking. Inventory reports may be generated and derived, and inventory result detail information may be derived.

The checking result importing module is used for importing the checking result manually and importing the checking result encryption file in the checking work into the system for processing.

The inventory history recording module is used for recording all inventory history data of the full province, displaying system inventory, the number of objects, inventory consistency, consistency home market ranking and consistency full province ranking of the past inventory, and providing a new inventory function according to units and time periods.

The asset management report module is used for generating an asset management report;

the asset management report can be used as an asset report, and the whole information of the asset is counted in a certain period in the statistical display area.

The asset management report shows the number of co-executing inventory tasks in the month/season, the total number of co-inventory assets and the average inventory consistency, and can click to view asset management month/season report.

Preferably, the batch inventory specifically includes:

(1) Acquiring an inventory task:

the intranet access checking tool is supported, and the checking task can be downloaded from the checking management and control module; and if the intranet access checking tool is not supported, the encrypted checking task is obtained from the local.

(2) Performing inventory:

and (3) adopting FRID batch identification technology to perform batch inventory on the warehouse assets, comparing the scanned asset bar codes with inventory tasks, and displaying inventory results in real time.

(3) Counting results

And automatically calculating the checking result according to the physical bar code and the system file information, and counting the information such as the number of tasks, the number of physical objects, the difference of results and the like according to the equipment category. The inventory results are stored in a local encryption mode, and the networking tool can store the inventory results to the inventory control module.

Preferably, the check-up is used for checking whether the system file is consistent with the physical file, and the file information stored in the system is displayed after the asset is scanned. If the system file is inconsistent with the real object, the real object file can be modified and the result can be uploaded to the inventory management and control module.

Preferably, the searching and positioning is to utilize the principle of ultrahigh frequency RFID recognition, the closer the distance is, the stronger the recognition signal is, the more the recognition times are, the positioning of a single asset can be realized by utilizing the principle, the dynamic display and the sound intensity and the sound frequency control are carried out on the recognized asset, and the staff is guided to rapidly position the position of the asset.

Preferably, the warehouse-in and warehouse-out scanning is to acquire a warehouse-in and warehouse-out task of the marketing system through a metering service bus, use a checking and checking tool to identify the bar codes of the warehouse-in and warehouse-out assets in batches, send the identified bar code information to a checking and controlling module to check the warehouse-in assets, and upload the warehouse-in and warehouse-out result to the marketing system through the metering service bus.

In one embodiment, the inventory metering asset lean management system based on the intelligent internet of things can be used for integrating and developing metering asset profile data of a provincial metering center production scheduling platform (measurement of integrated production dispatching system, hereinafter abbreviated as 'MDS'):

the MDS system completes the integrated development of the metering asset archives data, pushes related data such as an electric energy meter, a transformer, an acquisition terminal and the like to the metering asset checking and controlling module, and synchronizes the archives data in real time through the Oracle database to support the metering asset checking module to carry out archives checking.

And (3) integrating and developing the metering asset storage data:

the MDS system completes the integrated development of the storage data of the metering asset, pushes the related data of the inventory asset such as the electric energy meter, the transformer, the acquisition terminal and the like to the metering asset checking and controlling module, and synchronizes the storage data in real time through the Oracle database to support the metering asset checking module to carry out inventory checking and checking.

Technical principle:

according to the software and hardware design of the MDS system, the system architecture which can meet the application requirements of the metering center and the unified integration of the service development requirements is designed according to the service category of the MDS system so as to meet the production and operation requirements of the metering center. The technical scheme is following:

(1) Applicability: the method is suitable for the characteristics of verification production of metering centers of different provinces, and the centralized verification efficiency improvement construction is carried out according to the principles of unified standard, unified platform and unified implementation.

(2) Standardization: the content of each part of the design architecture accords with related international standards, national standards, industry standards and related technical specifications and requirements of national power grid company.

(3) Unification: the overall architecture, the business architecture, the data architecture, the technical architecture and the physical architecture are complementary in design, and the high uniformity of the system architecture is ensured.

(4) And (3) expansibility: fully considers the utilization of the existing software and hardware equipment, network facilities and the like, fully considers the future construction requirements for the software and hardware transformation, and avoids the waste of resources.

The design requirements are as follows:

modular based hardware design:

in consideration of reliability and maintainability, the hardware unit of the application adopts a modularized design, so that the hardware product obtains good universality, can be adjusted according to the monitoring requirements of different metering centers, can fully cope with future data requirements and functional requirements, and can obtain good expansibility.

J2 EE-based architecture design:

according to the technical requirements and the development trend of information technology of 'SG 186' engineering construction, the metering production scheduling platform adopts a J2EE multi-layer technical framework with the combination of technical advancement and maturity so as to improve the flexibility, expandability, safety and concurrent processing capability of the system, and meanwhile, the metering production scheduling platform is comprehensively integrated with an enterprise internal business application system through an integrated platform.

The inventory management and control is used as a submodule of the MDS system and mainly comprises two functions of inventory task management and inventory execution monitoring. The inventory task management takes the record data of the asset (electric energy meter, transformer and acquisition terminal) of the metering production scheduling platform as a reference, realizes the formulation of periodic inventory tasks and targeted inventory tasks, issues the formulation of inventory tasks by one key, returns inventory results to the MDS, and updates the record data of the metering asset according to the inventory results; and the inventory execution monitoring realizes real-time monitoring of inventory task execution progress, and inventory reports are automatically generated.

The checking APP is used as a checking tool for checking management and control, and the functions of checking in batches, checking files one by one, physically positioning a single mark and the like are mainly realized by utilizing the ultrahigh frequency RFID batch identification function.

Design concept based on SOA:

SOA (service-oriented architecture) is a service oriented architecture that links the different functional units of an application (called services) through well-defined interfaces and contracts between these services. The interface is defined in a neutral manner, independent of the hardware platform, operating system, and programming language in which the service is implemented. This allows services built into a variety of such systems to interact in a unified and versatile manner. This feature with neutral interface definition (not forced to bind to a particular implementation) is called loose coupling between services. The benefit of loose coupling is two-way, one is its flexibility, and the other is that it can persist as the internal structure and implementation of each of the services that make up the entire application change gradually.

The application architecture of the present application is shown in fig. 1. The inventory management and control module comprises three functional modules, namely warehouse risk analysis, inventory task management and inventory execution monitoring. The warehouse risk analysis function visualizes analysis results of the inventory evaluation model and monitors key business indexes; the inventory task management function mainly realizes the formulation of three tasks, namely a periodic inventory task, a targeting inventory task and an on-the-fly asset check task, and realizes the one-key formulation and issuing of the inventory task; and the inventory execution monitoring realizes real-time monitoring of inventory task execution progress, and inventory reports are automatically generated.

The checking and counting tool (checking and counting APP) utilizes the ultrahigh frequency RFID batch identification function, and mainly realizes the functions of batch counting, checking files by each counting, single-table physical positioning, quick in-out and in-out asset scanning and the like.

The technical architecture is as follows:

(1) Technical route

The application follows the J2EE technical system, adopts Oracle Rac as a database, adopts JSP, flash, JS and other technologies, and ensures the display effect of the system. The technical route is shown in figure 2.

(2) Technical architecture

The multi-layer technical architecture based on J2EE is adopted to improve the flexibility, expandability, safety and concurrent processing capability of the system, and meanwhile, the data interaction with other business applications such as marketing business applications, electricity consumption information acquisition systems, metering production scheduling platforms and the like is realized through a unified data interface.

The technical architecture of the system adopts a mainstream four-layer architecture of current WEB development, ensures independence among all layers of the system, and ensures enough expansibility for platform technology upgrading which possibly exists in the future.

The foregoing describes preferred embodiments of the present application, but is not intended to limit the application thereto. Modifications and variations to the embodiments disclosed herein may be made by those skilled in the art without departing from the scope and spirit of the application.

Claims (10)

1. The inventory metering asset lean management system based on the intelligent Internet of things is characterized by comprising an inventory management and control module and an inventory checking APP, wherein the inventory management and control module comprises a storehouse risk analysis module, an inventory task management module and an inventory monitoring management module; the warehouse risk analysis module is used for providing the result of the visual inventory risk evaluation model, displaying the comprehensive score and ranking of each city and county company, and provincial company management personnel can directly issue a inventory task according to the evaluation result; displaying the inventory duration statistics of the qualified inventory in the inventory and the inventory duration statistics of the to-be-shunted inventory, and displaying the abnormal disassembly and assembly, repeated resetting and abnormal scrapped asset statistics information; the inventory task management module is used for managing inventory tasks; the inventory monitoring management module is used for monitoring inventory execution conditions, displaying inventory results, importing inventory results, displaying inventory history records and generating asset management reports; the checking and checking APP is used for a metering inventory checking tool based on an ultrahigh frequency RFID batch identification technology, a handheld ultrahigh frequency identification device is adopted, and electronic tags in the metering device are utilized to realize rapid batch identification of inventory metering assets, and four functions of batch checking, piece-by-piece checking, searching and positioning and warehouse in-out scanning are realized.

2. The inventory metering asset lean management system based on the intelligent internet of things according to claim 1, wherein the inventory task management module allows different ranges of managed inventory tasks according to different units of the manager.

3. The intelligent internet of things-based inventory metering asset lean management system of claim 1, wherein a provincial company metering asset manager can manage inventory tasks within a full provincial range, a municipal company metering asset manager can manage inventory tasks within a local company and a prefecture company, and a county company can manage inventory tasks within the local company range.

4. The inventory metering asset lean management system based on the intelligent internet of things according to claim 1, wherein the types of inventory tasks comprise periodic inventory tasks and targeted inventory tasks; the targeted inventory task further comprises a system automatic generation task and a manual generation task.

5. The intelligent internet of things-based inventory metering asset lean management system of claim 1, wherein the functions of task addition, task deletion, task modification, task issuing and task detail presentation are provided for different task types.

6. The intelligent internet of things-based inventory metering asset lean management system of claim 1, wherein the inventory risk analysis module comprises an inventory risk overview module, a unit monitoring signboard and a forecast risk asset module, wherein the inventory risk overview module is used for displaying the result of analysis of a big data model and displaying risk scores, risk grades, home ranks, full-province ranks and full-province ranking changes of each unit; counting units of the first few bits and the last few bits of the scoring rank; counting the number of the abnormal assets in the whole province, wherein the number comprises the number of stock exceeding, exceeding to-be-shunted processing, abnormal assembly and disassembly, multiple accessories and abnormal scrapping; the unit monitoring board is used for displaying the current unit warehouse risk score, the current inventory information, the latest and historical inventory results and the current warehouse abnormal equipment information, and allowing the unit monitoring board to issue inventory tasks; the prediction risk asset module is used for displaying an analysis interface of the asset evaluation model, displaying the quantity of high-level assets in a city and county company grouping statistical mode, and deriving Excel from detail data.

7. The inventory metering asset lean management system based on the intelligent internet of things according to claim 1, wherein the inventory task management module comprises an inventory task creation module, an inventory task issuing module and an inventory announcement module; the inventory task creation module is used for creating inventory tasks of different types; the inventory task issuing module is used for executing issuing operation on the generated inventory task and supporting one-key issuing and batch issuing; the inventory announcement module is used for generating corresponding inventory announcements after issuing inventory tasks; the content of the inventory announcement corresponds to the issued inventory task.

8. The inventory metering asset lean management system based on the intelligent internet of things according to claim 1, wherein inventory task generation mechanisms of different types are different; the periodic full-disc task type is that all stores in the whole province execute inventory tasks; the scoring inventory task type is that inventory tasks are automatically generated for the inventory with low scoring results according to the inventory risk evaluation results; the secondary inventory task type is to automatically generate inventory tasks for the storehouses with low inventory consistency according to the last inventory result; the type of the spot check checking task is that staff of all levels of provinces, cities and counties manually generate the checking task for the company or the company under the control of the staff.

9. The inventory metering asset lean management system based on the intelligent internet of things according to claim 1, wherein the inventory monitoring management module comprises an inventory execution monitoring module, an inventory result lead-in module, an inventory history recording module and an asset management reporting module; the inventory execution monitoring module is used for monitoring inventory execution conditions of the current month and counting and chart result display of inventory task execution conditions of companies in the current month of province, city and county; the inventory result module is used for displaying the execution results of all inventory tasks in the whole province, generating and exporting inventory reports and exporting inventory result detail information; the checking result importing module is used for importing checking results manually and importing checking result encryption files in checking work; the inventory history recording module is used for recording all inventory history data of the full province, displaying system inventory, the number of objects, inventory consistency, the market ranking of consistency and the full province ranking of consistency of the past inventory, and providing a new inventory function according to units and time periods; the asset management reporting module is configured to generate an asset management report.

10. The intelligent internet of things-based inventory metering asset lean management system according to claim 1, wherein the asset management report can be used as an asset report, and the whole information of the inventory assets in a certain period in the display area is counted; the asset management report shows the number of the co-executed inventory tasks in the month or the season, the total number of the co-inventory assets and the average inventory consistency, and can click to view the asset management month report or the season report.