CN113723878A - Tool warehousing method suitable for nuclear power plant - Google Patents

Abstract

The invention provides a tool storage method suitable for a nuclear power plant, belongs to nuclear power management, and comprises the step of judging whether a material code of a tool exists in a power plant database. If yes, warehouse information verification based on warehouse information, basic attribute value verification based on basic attribute value information and linkage verification based on warehousing information are respectively carried out. If not, respectively carrying out tracking type verification based on the tracking type information, warehouse information verification based on the warehouse information, basic type division verification based on the basic type division information, basic attribute value verification based on the basic attribute value information and linkage verification based on the warehousing information. All the checks comprise a data format check and a data value check. The invention adopts different warehousing rules to perform warehousing check on the tools which are not warehoused and the tools which are warehoused, ensures the accuracy of the data format and the data value of warehousing information, improves the warehousing efficiency, and is convenient for warehousing management and subsequent management of the tools.

Description

Tool warehousing method suitable for nuclear power plant

Technical Field

The invention relates to the technical field of nuclear power management, in particular to a tool warehousing method suitable for a nuclear power plant.

Background

The tools and instruments refer to tools and instruments used in industrial production. In the safety production management of nuclear power plants, various types and quantities of tools are managed, for example, nuclear power companies belong to a plurality of nuclear power plants, the nuclear power companies issue required tools to the nuclear power plants according to requirements of the nuclear power plants, and the tools can be borrowed and transferred among different nuclear power plants. A material main database is arranged on one side of a nuclear power company and used for storing basic relevant information of tools and appliances. A power plant database is arranged on one side of the nuclear power plant and used for storing warehousing information of tools and instruments, and warehousing management of the tools and instruments which are warehoused by the one side of the nuclear power plant is an important link of safety production management of the nuclear power plant.

As a shared resource, the traditional warehousing method of the tools and the instruments has the following problems:

(1) the related attributes of the tools are inaccurate and imperfect, and subsequent tracking is affected.

(2) Related parameters of the tools are inaccurate, and safety production is affected.

(3) The multiple warehousing modes do not have a unified warehousing rule, so that the warehousing information is easily disordered, the sharing of tools and appliances is not facilitated, the utilization rate of the tools and appliances is low, and the resources are wasted.

(4) The warehousing process is simple, the quantity verification and the information verification are performed in a large number of manual verification modes, the mode is single, the efficiency is low, and the error rate is high.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the tool warehousing method suitable for the nuclear power plant, the tools are subjected to warehousing management by formulating the standard warehousing rule, the accuracy of warehousing information is improved, and the warehousing management and the subsequent management of the tools are facilitated.

In order to achieve the above purposes, the technical scheme is as follows:

a tool warehousing method suitable for a nuclear power plant comprises the following steps:

acquiring warehousing information of the tools, wherein each tool has a material code, and the warehousing information comprises tracking type information, warehouse information, basic type division information and basic attribute value information;

according to a preset warehousing rule, judging whether the power plant database has the material codes of the tools or not:

if yes, respectively carrying out warehouse information verification based on the warehouse information, basic attribute value verification based on the basic attribute value information and linkage verification based on the warehousing information;

if not, respectively carrying out tracking type verification based on the tracking type information, warehouse information verification based on warehouse information, basic type division verification based on basic type division information, basic attribute value verification based on basic attribute value information and linkage verification based on warehousing information;

all the checks comprise a data format check and a data value check.

Preferably, the acquiring the warehousing information of the tool specifically includes:

selecting a tool to be warehoused from a material main database of a nuclear power company, and synchronizing the material code and warehousing information of the selected tool to a power plant database of a nuclear power plant; alternatively, the first and second electrodes may be,

the material codes and warehousing information of the tools and the instruments to be warehoused are manually input into a power plant database of the nuclear power plant.

Preferably, the tracking type information is used for indicating the tracking type of the tool, and the tracking type of the tool comprises an S type and an N type;

when the tracking type of the tools is S type, corresponding UIC codes are added in the warehousing information of the tools when the tools are warehoused, and each tool is tracked through the UIC codes;

when the tracking type of the tool is N, the tool is tracked through the material codes.

Preferably, the method further comprises:

and adding the tracking code of the tool into the warehousing information.

Preferably, the warehouse information is used for representing the warehouse position of the tool, and the warehouse position of the tool comprises a warehouse value, a warehouse value and a warehouse type;

the bin types include main bin, alternate bin, dirty bin, and unframed bin.

Preferably, the warehouse information verification based on warehouse information specifically includes:

performing data format verification on the warehouse information to judge whether the warehouse information contains a warehouse value, a bin value and a bin type, and judging whether the data format of the warehouse value, the bin value and the bin type meets a preset standard;

when the material code of multiplexer utensil has existed in the power plant database, the chain check based on warehouse entry information specifically includes:

carrying out data value verification on the bin value and the bin type to judge whether the bin value is matched with the bin type;

when the material code of multiplexer utensil does not exist in the power plant database, the chain check based on warehouse entry information specifically includes:

and carrying out data value verification on the warehouse information to judge whether the bin type belongs to one of the main bin and the non-overhead bin and whether the bin value is matched with the bin type.

Preferably, the basic type classification information is used for representing basic type classification of the tool, and the basic type classification of the tool comprises management classification, use classification and power classification;

the management classification comprises conventional tools, measurement tools, safety tools and hoisting tools;

usage categories include general purpose tools, and special purpose tools;

power classes include electric, pneumatic, hydraulic, manual, and others.

Preferably, the basic type partition checking based on the basic type partition information specifically includes:

carrying out data format verification on the basic type division information to judge whether the basic type division information contains management classification, use classification and power classification, and judging whether the data formats of the management classification, the use classification and the power classification meet a preset standard;

when the material code of multiplexer utensil has existed in the power plant database, the chain check based on warehouse entry information specifically includes:

performing data value verification on the basic type division information to judge whether the data value of the basic type division information of the tool with the tracking type of S class meets a preset standard or not and judge whether the data value of the basic type division information of the tool with the tracking type of N class meets the preset standard or not;

when the material code of multiplexer utensil does not exist in the power plant database, the chain check based on warehouse entry information specifically includes:

and performing data value verification on the basic type division information to judge whether the data value of the basic type division information of the tool with the tracking type of S class meets a preset standard or not, and judging whether the data value of the basic type division information of the tool with the tracking type of N class meets the preset standard or not.

Preferably, the basic attribute value information is used to indicate a basic attribute value of the tool, and the basic attribute value of the tool includes factory information, inspection information, maintenance information, application information, parameter information, and management attribution information;

the factory information comprises quantity, factory code and supplier;

the verification information comprises a latest verification unit, a latest verification date, a verification certificate type, a verification certificate number, a verification certificate retrieval number and a verification mode;

the maintenance information comprises a latest maintenance unit and a latest maintenance date;

the applicable information comprises an applicable unit, an applicable system and applicable equipment;

the parameter information comprises the name, specification, model, measurement range, measurement precision and function description of the tool;

the management attribution information comprises a responsible team, an affiliated warehouse, an affiliated power plant, whether fixed assets exist or not and borrowing approval sheets.

Preferably, the basic attribute value verification based on the basic attribute value information specifically includes:

and carrying out data format verification on the basic attribute value information to judge whether the basic attribute value information contains factory information, inspection information, maintenance information, application information, parameter information and management attribution information or not, and judging whether the data format of the factory information, the inspection information, the maintenance information, the application information, the parameter information and the management attribution information meets a preset standard or not.

The invention has the beneficial effects that: the configurable and automatic verification and check of tool and instrument warehousing information are realized, different warehousing rules are adopted for warehousing and check of tools and instruments which are not warehoused and tools which are warehoused, the accuracy of data formats and data values of warehousing information is ensured, the warehousing efficiency is improved, and the warehousing management and the subsequent management of the tools and instruments are facilitated.

Drawings

Fig. 1 is a flowchart of a tool warehousing method suitable for a nuclear power plant according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific examples described herein are intended to be illustrative only and are not intended to be limiting. Moreover, all other embodiments that can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort belong to the protection scope of the present invention.

The present invention will be described in further detail with reference to the accompanying drawings and examples. As shown in fig. 1, the present invention provides a tool warehousing method suitable for a nuclear power plant, including:

and step S1, acquiring warehousing information of the tools, wherein each tool has a material code, and the warehousing information comprises tracking type information, warehouse information, basic type division information and basic attribute value information.

And S2, judging whether the material codes of the tools exist in the power plant database according to preset warehousing rules.

If yes, go to step S3.

If not, go to step S4.

And step S3, respectively performing warehouse information verification based on warehouse information, basic attribute value verification based on basic attribute value information and linkage verification based on warehouse information, and then turning to step S5.

Step S4, performing tracking type verification based on the tracking type information, warehouse information verification based on the warehouse information, basic type division verification based on the basic type division information, basic attribute value verification based on the basic attribute value information, and linkage verification based on the warehousing information, respectively, and then going to step S5.

Step S5, the tracking code of the tool is added to the warehousing information.

All the checks comprise a data format check and a data value check.

In the embodiment, the material codes are checked by taking the power plant level as a reference, the current power plant database is an old code if the current power plant database exists, and the current power plant database is a new code if the current power plant database does not exist. And the warehousing check rules corresponding to the new and old material codes are different. The warehousing method is applied to managing a plurality of nuclear power plants of a nuclear power company and the subordinate nuclear power plants thereof, warehousing is carried out on the basis of the nuclear power plants, and nuclear power plant information is added to warehousing information of tools and appliances by default when warehousing operation is carried out.

The method comprises the steps of acquiring all information related to tools and instruments when the tools and instruments are put in storage and inputting the information into a power plant database as storage information, wherein the storage information of the tools and instruments of different types and different sources when the tools and instruments are put in storage meets a preset standard, namely, the storage information is verified, the accuracy of the storage information is guaranteed through the verification, the error probability is reduced, the storage efficiency is improved, the storage verification is carried out by adopting different storage rules according to whether the materials of a construction period library to be stored exist in the power plant database, and the storage efficiency is further improved. Subsequent management of the tools, such as use and borrow, is based on the warehousing information, automation and configuration of warehousing information verification of the tools are achieved, accuracy of warehousing information and warehousing efficiency are improved, meanwhile, tracking of relevant use processes of the subsequent tools is facilitated, reusability of shared resources is improved, and tracking and cross-region sharing use of the tools are guaranteed.

In a preferred embodiment, the step S1 of acquiring the tool storage information specifically includes:

and selecting the tools to be warehoused from a material main database of a nuclear power company, and synchronizing the material codes and warehousing information of the selected tools to a power plant database of a nuclear power plant. Or the staff of the nuclear power plant inputs the material codes and the warehousing information of the tools and the instruments to be warehoused into the power plant database of the nuclear power plant.

In this embodiment, the staff of the power plant selects the tools and the instruments according to actual requirements, and synchronizes the warehousing information of the tools and the instruments to be warehoused from the material master database to the tool and instrument management database of the power plant, and in this synchronization process, whether the warehousing information is accurately checked will affect the subsequent processes of borrowing, returning, maintaining, inspecting, scrapping and the like of the tools and the instruments. When the warehousing information is imported, the warehousing information can be imported in batch through an EXCEL template, or can be imported manually after being manually inquired.

Regardless of whether the warehousing information of the tools and the instruments is directly synchronized to the power plant database from the material master database or manually input into the power plant database by the staff of the power plant, the warehousing is verified according to preset warehousing rules before the warehousing information is stored into the power plant database, so that the warehousing efficiency is improved.

In a preferred embodiment, the tracking type information is used to indicate the tracking type of the tool, and the tracking type of the tool includes S-class and N-class.

When the tracking type of the tool is S type, adding a corresponding UIC (Unique Identifier Code) Code in the warehousing information of the tool when the tool is warehoused, and tracking the tool through the UIC Code, namely independently tracking the tool of S type subsequently.

When the tracking type of the tool is S type, the other tracking mode is material coding and factory coding, wherein the material coding is the same, the factory coding is the same, the tool is the same, the material coding is the same, the factory coding is different, and the tool is different. UIC tracking or material coding + factory coding are different tracking modes, but tracking results are consistent.

When the tracking type of the tools is N, the tools of the same type or the same batch have the same material codes, and the tools are tracked through the material codes, namely, a plurality of groups of tools of N types are tracked subsequently.

In this embodiment, the types of the tool are classified into two types, i.e., S type and N type, according to the specialty, the type, the use, and the like of the tool, different tracking types correspond to different calibration standards, and storage rules corresponding to the S type or the N type are also different.

In a preferred embodiment, the warehouse information is used for representing the warehouse location of the tool, the warehouse location of the tool comprises a warehouse value, a warehouse location value and a warehouse location type, and the warehouse information can be set by a user. The warehouse value indicates which warehouse the tools and the instruments are put into after being put into the warehouse, the bin level value indicates which bin the tools and the instruments are put into after being put into the warehouse, and the bin type indicates the type of the bin the tools and the instruments are put into after being put into the warehouse.

The bin types include main bin, alternate bin, dirty bin, and unframed bin. The main bin is a main bin for placing tools and instruments, the substitute bin is a substitute bin of the main bin, the contaminated bin is a bin where the tools and instruments are placed after being contaminated, and the bins which are not erected are bins where the tools and instruments are put in storage but cannot be used temporarily and are placed in the bins which are not erected.

In this embodiment, the tools and instruments put in the warehouse (for material coding) need to judge and check the warehouse, the bin and the bin type, and tools with different codes are put in different bins to standardize the storage of the tools.

The checking of the bin information mainly comprises checking the bin value and the bin type. The warehouse information checking based on the warehouse information comprises the steps of checking the data format of the warehouse information to judge whether the warehouse information comprises a warehouse value, a bin value and a bin type, judging whether the data format of the warehouse value, the bin value and the bin type meets a preset standard, if the data format meets the standard, agreeing to warehousing, and if the data format does not meet the rule, refusing warehousing. The general bin position value comprises a room number (2 bits), a shelf row (2 bits), a shelf column (2 bits), a goods position layer (2 bits) and a goods position number (2 bits), and the standard data format of the bin position value is as follows: X-XX-XX-XX-X-XX, meaning are respectively: floor, area, shelf row, shelf column/group, cargo space level, and cargo space number.

Further, in step S2, when the material code of the tool already exists in the power plant database, the chain verification based on the warehousing information specifically includes:

and carrying out data value verification on the bin value and the bin type to judge whether the bin value is matched with the bin type, if the bin value meets the standard, agreeing to put in storage, and if the bin value does not meet the rule, refusing to put in storage. When the material code is an old code, the bin type contained in the warehouse information can be a main bin, a substitute bin, a contaminated bin or a non-mounted bin, and the bin value can only be matched with the corresponding bin.

Further, in step S2, when the material code of the tool does not exist in the power plant database, the chain verification based on the warehousing information specifically includes:

and carrying out data value verification on the warehouse information to judge whether the bin type belongs to one of the main bin and the bin which is not put on shelf or not, judging whether the bin type is matched with the bin type or not, agreeing to warehouse entry if the bin type meets the standard, and refusing to warehouse entry if the bin type does not meet the rule. When the material code is a new code, the bin type contained in the warehouse information in the warehousing information must only be a main bin or a non-shelving bin, and the bin value can only be matched with the main bin or the non-shelving bin.

In a preferred embodiment, the basic type classification information is used for representing basic type classification of the tool, and the basic type classification of the tool comprises management classification, use classification and power classification.

The management classification includes conventional tools, metrology tools, safety tools, and hoisting tools.

The use classification includes general-purpose tools and special-purpose tools.

Power classes include electric, pneumatic, hydraulic, manual, and others.

In a preferred embodiment, the basic type partition checking based on the basic type partition information specifically includes:

and carrying out data format verification on the basic type division information to judge whether the basic type division information comprises management classification, use classification and power classification, and judging whether the data formats of the management classification, the use classification and the power classification meet a preset standard, if the data formats meet the standard, agreeing to warehousing, and if the data formats do not meet the rule, refusing to warehousing.

Further, in step S2, when the material code of the tool already exists in the power plant database, the chain verification based on the warehousing information specifically includes:

and performing data value verification on the basic type division information to judge whether the data value of the basic type division information of the tool with the tracking type of S class meets a preset standard or not, and judging whether the data value of the basic type division information of the tool with the tracking type of N class meets the preset standard or not. The tool that is put in inventory must be classified as: and (4) managing classification, using classification and power classification, wherein the method is not subjected to corresponding type division and is not accurate to be put in storage.

The tool usage classification with the tracking type of S is a special tool, and the value of the management classification is one of a measurement tool, a safety tool, and a hoisting tool. If the value of the fixed asset is yes, the number must be 1. The following fields must have values: material coding, tracking type, warehouse, position type, quantity, delivery coding, use classification, management classification, power classification, whether to independently borrow authorization, whether to use special tools, whether to check and whether to fix assets.

The tool usage classification with the tracking type of S is a special tool, and the value of the management classification is one of a measurement tool, a safety tool, and a hoisting tool. If the value of the fixed asset is yes, the number must be 1. The following fields in the warehouse information must have values: material coding, tracking type, warehouse, position type, quantity, delivery coding, use classification, management classification, power classification, whether to independently borrow authorization, whether to use special tools, whether to check and whether to fix assets.

The tracking type of the tool is N types, the number of the tool is required to be a positive integer, and the following fields in the warehouse information are required to have values: material coding, tracking type, warehouse, bin type, quantity, and whether fixed assets are available.

Further, in step S2, when the material code of the tool does not exist in the power plant database, the chain verification based on the warehousing information specifically includes:

and performing data value verification on the basic type division information to judge whether the data value of the basic type division information of the tool with the tracking type of S class meets a preset standard or not, and judging whether the data value of the basic type division information of the tool with the tracking type of N class meets the preset standard or not.

The tool usage classification of the tracking type S is a special tool, and the number of the tools is required to be 1. The following fields in the warehouse information must have values: material coding, warehouse, bin type, quantity, delivery coding, purchase unit price, supplier and whether to fix the assets.

The tracking type of the tool is N types, the number of the tool is required to be a positive integer, and the following fields in the warehouse information are required to have values: material coding, tracking type, warehouse, position type, quantity, delivery coding, use classification, management classification, power classification, whether to independently borrow authorization, whether to use special tools, whether to check and whether to fix assets.

In a preferred embodiment, the basic attribute value information is used to indicate a basic attribute value of the tool, and the basic attribute value of the tool includes factory information, inspection information, maintenance information, application information, parameter information, and management attribution information.

The factory information includes the quantity, factory code, and supplier.

The verification information includes the latest verification unit, the latest verification date, the verification certificate type, the verification certificate number, the verification certificate retrieval number, and the verification means.

The maintenance information includes the latest maintenance unit and the latest maintenance date.

The applicable information comprises applicable units, applicable systems and applicable equipment.

The parameter information includes tool name, specification, model, measurement range, measurement accuracy, and function description.

The management attribution information comprises a responsible team, an affiliated warehouse, an affiliated power plant, whether fixed assets exist or not and borrowing approval sheets.

In a preferred embodiment, in the step S2, the basic attribute value verification based on the basic attribute value information specifically includes:

and carrying out data format verification on the basic attribute value information to judge whether the basic attribute value information contains factory information, inspection information, maintenance information, application information, parameter information and management attribution information or not, and judging whether the data format of the factory information, the inspection information, the maintenance information, the application information, the parameter information and the management attribution information meets a preset standard or not.

In this embodiment, if the latest check date has a value, the latest check unit must be filled. If the checked value is not, the last check unit is empty. If the latest check date has a value, the check certificate type must be filled, and the value is verification, calibration, detection. If the last check date has a value, then the check certificate number must be filled. If the latest inspection date has a value, the inspection method must be filled, and the value of the inspection method is one of the delivery inspection outside the factory, the other inspection inside the factory and the self-inspection inside the factory. If the value of the last check date is no, then the last check date is null. If the last service date has a value, the value must conform to the date format, and the last service date is not greater than the current date. If the value of the fixed asset is yes, the fixed asset number must be filled. If the value of the fixed asset is not, the fixed asset number is null. If the usage classification is a special tool, the user is responsible for the filling of the team.

Further, the basic attribute value information may be added, deleted, or modified according to actual needs, for example, if the basic attribute value information includes whether to borrow the authorization alone, the value of the basic attribute value information must be yes or no. The basic attribute value information includes whether or not a specific tool is required. If the basic attribute value information includes a maintenance period, the value must be a positive integer if the maintenance period has a value. The basic attribute value information contains the number of days to be checked, and if the number of days to be checked has a value, the value must be a non-negative integer. The base attribute value information contains the highest inventory, which if any, must be a positive integer. If the base attribute value information contains both the highest inventory and the lowest inventory, the highest inventory value must not be less than the lowest inventory if both have values. The base attribute value information contains a minimum inventory, which if any, must be a positive integer. The basic attribute value information includes whether to check, whether the checked value is, and whether to check that the certificate type is empty. The basic attribute value information includes a purchase unit price, and if the purchase unit price has a value, the value must be a positive number.

The present invention is not limited to the above-described embodiments, and it will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the principle of the present invention, and such modifications and improvements are also considered to be within the scope of the present invention. Those not described in detail in this specification are within the skill of the art.

Claims (10)

1. A tool warehousing method suitable for a nuclear power plant is characterized by comprising the following steps:

acquiring warehousing information of the tools, wherein each tool has a material code, and the warehousing information comprises tracking type information, warehouse information, basic type division information and basic attribute value information;

according to a preset warehousing rule, judging whether the power plant database has the material codes of the tools or not:

if yes, respectively carrying out warehouse information verification based on the warehouse information, basic attribute value verification based on the basic attribute value information and linkage verification based on the warehousing information;

if not, respectively carrying out tracking type verification based on the tracking type information, warehouse information verification based on warehouse information, basic type division verification based on basic type division information, basic attribute value verification based on basic attribute value information and linkage verification based on warehousing information;

all the checks comprise a data format check and a data value check.

2. The tool warehousing method suitable for the nuclear power plant as claimed in claim 1, wherein the acquiring of the warehousing information of the tool specifically includes:

selecting a tool to be warehoused from a material main database of a nuclear power company, and synchronizing the material code and warehousing information of the selected tool to a power plant database of a nuclear power plant; alternatively, the first and second electrodes may be,

the material codes and warehousing information of the tools and the instruments to be warehoused are manually input into a power plant database of the nuclear power plant.

3. The tool warehousing method suitable for the nuclear power plant as claimed in claim 1, wherein the tracking type information is used for indicating a tracking type of the tool, and the tracking type of the tool includes S type and N type;

when the tracking type of the tools is S type, corresponding UIC codes are added in the warehousing information of the tools when the tools are warehoused, and each tool is tracked through the UIC codes;

when the tracking type of the tool is N, the tool is tracked through the material codes.

4. The method of warehousing a tool adapted for use in a nuclear power plant of claim 3, further comprising:

and adding the tracking code of the tool into the warehousing information.

5. The tool warehousing method for a nuclear power plant according to claim 1, wherein the warehouse information is used for representing a warehouse location of the tool, and the warehouse location of the tool includes a warehouse value, and a warehouse type;

the bin types include main bin, alternate bin, dirty bin, and unframed bin.

6. The tool warehousing method suitable for nuclear power plants according to claim 5, wherein the warehouse information verification based on warehouse information specifically includes:

performing data format verification on the warehouse information to judge whether the warehouse information contains a warehouse value, a bin value and a bin type, and judging whether the data format of the warehouse value, the bin value and the bin type meets a preset standard;

when the material code of multiplexer utensil has existed in the power plant database, the chain check based on warehouse entry information specifically includes:

carrying out data value verification on the bin value and the bin type to judge whether the bin value is matched with the bin type;

when the material code of multiplexer utensil does not exist in the power plant database, the chain check based on warehouse entry information specifically includes:

and carrying out data value verification on the warehouse information to judge whether the bin type belongs to one of the main bin and the non-overhead bin and whether the bin value is matched with the bin type.

7. The tool warehousing method for the nuclear power plant according to claim 3, wherein the basic type classification information is used for representing basic type classification of the tool, and the basic type classification of the tool comprises management classification, use classification and power classification;

the management classification comprises conventional tools, measurement tools, safety tools and hoisting tools;

usage categories include general purpose tools, and special purpose tools;

power classes include electric, pneumatic, hydraulic, manual, and others.

8. The tool warehousing method suitable for the nuclear power plant according to claim 7, wherein the basic type classification verification based on the basic type classification information specifically includes:

carrying out data format verification on the basic type division information to judge whether the basic type division information contains management classification, use classification and power classification, and judging whether the data formats of the management classification, the use classification and the power classification meet a preset standard;

when the material code of multiplexer utensil has existed in the power plant database, the chain check based on warehouse entry information specifically includes:

performing data value verification on the basic type division information to judge whether the data value of the basic type division information of the tool with the tracking type of S class meets a preset standard or not and judge whether the data value of the basic type division information of the tool with the tracking type of N class meets the preset standard or not;

when the material code of multiplexer utensil does not exist in the power plant database, the chain check based on warehouse entry information specifically includes:

and performing data value verification on the basic type division information to judge whether the data value of the basic type division information of the tool with the tracking type of S class meets a preset standard or not, and judging whether the data value of the basic type division information of the tool with the tracking type of N class meets the preset standard or not.

9. The tool warehousing method for the nuclear power plant according to claim 3, wherein the basic attribute value information is used for representing a basic attribute value of the tool, and the basic attribute value of the tool includes factory information, inspection information, maintenance information, application information, parameter information, and management attribution information;

the factory information comprises quantity, factory code and supplier;

the verification information comprises a latest verification unit, a latest verification date, a verification certificate type, a verification certificate number, a verification certificate retrieval number and a verification mode;

the maintenance information comprises a latest maintenance unit and a latest maintenance date;

the applicable information comprises an applicable unit, an applicable system and applicable equipment;

the parameter information comprises the name, specification, model, measurement range, measurement precision and function description of the tool;

the management attribution information comprises a responsible team, an affiliated warehouse, an affiliated power plant, whether fixed assets exist or not and borrowing approval sheets.

10. The tool warehousing method suitable for the nuclear power plant according to claim 9, wherein the basic attribute value verification based on the basic attribute value information specifically includes:

and carrying out data format verification on the basic attribute value information to judge whether the basic attribute value information contains factory information, inspection information, maintenance information, application information, parameter information and management attribution information or not, and judging whether the data format of the factory information, the inspection information, the maintenance information, the application information, the parameter information and the management attribution information meets a preset standard or not.

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