CN117350666A - Tool management method and device based on flow engine and related equipment - Google Patents

Abstract

The application discloses a tool management method, a device and related equipment based on a flow engine, wherein the method comprises the following steps: opening an approval process page associated with a user based on the user request, wherein the approval process is used for life cycle management of power industry tools; generating form data based on the content input by the user on the approval process page, wherein the form data is used for describing an approval request of the user; submitting the form data to a next flow node, and determining whether the form data passes approval or not based on response data of the flow node; the approval process is recorded in the process engine project of the action framework in the form of a process file. The management of the whole life cycle of the tools is realized, and the safety of electric power operation is improved.

Description

Tool management method and device based on flow engine and related equipment

Technical Field

The present application relates to the technical field of power tool management, and in particular, to a tool management method and apparatus based on a flow engine, and related devices.

Background

At present, construction type tools and instruments management generally has the problems of scattered standing account data, missed daily management implementation of tools and instruments, impersonation or inadequacy of the collar of tool and instrument room site, improper use of tool and instrument operation site, unplanned operation, unqualified use of tools and instruments and the like, and in addition, the problems of unbelted safety belts in high-place operation, broken tools and instruments, unqualified detection marks of tools and instruments, incomplete hook unhooking prevention devices, missing protection covers of mechanical rotating devices and the like, directly threatens personal safety of operators, seriously threatens personal safety of operators, and sounds a safety alarm for safety production.

Disclosure of Invention

In view of the above, the present application provides a method, an apparatus and a related device for managing tools and instruments based on a flow engine, so as to implement management of tools and instruments.

To achieve the above object, a first aspect of the present application provides a tool management method based on a flow engine, including:

opening an approval process page associated with a user based on the user request, wherein the approval process is used for life cycle management of power industry tools;

generating form data based on the content input by the user on the approval process page, wherein the form data is used for describing an approval request of the user;

submitting the form data to a next flow node, and determining whether the form data passes approval or not based on response data of the flow node;

the approval process is recorded in the process engine project of the action framework in the form of a process file.

Preferably, the approval process includes a configuration management process;

the configuration management flow is used for:

based on preset tool standards, the types and the numbers of tools are configured for the electric equipment installation class group, the power transmission construction class group, the power distribution construction class group, the distribution network live working class group and the high-voltage test class group.

Preferably, the approval process further comprises a purchase management process;

the purchase management flow is used for:

judging whether the tools and instruments purchased by the user are required to meet the requirements or not based on preset industry standards and technical specifications;

carrying out statistical analysis on historical tool use conditions;

and monitoring and checking the configuration condition of the tools.

Preferably, the approval process further comprises an acceptance management process;

the acceptance management flow is used for:

checking and accepting the tools based on whether the appearance is good or not, namely whether the product specification is complete or not;

sampling and checking tools based on a preset technical specification;

notifying a preset detection unit to carry out full detection or spot detection on the tools within 3 months after the tools arrive in the goods;

and distributing the qualified detected tools to a using team, and returning the unqualified detected tools to the manufacturer.

Preferably, the approval process further comprises a ledger management process;

the ledger management flow is used for:

the stock accounts in each decentralized system are incorporated into a unified tool and appliance electronic account;

recording the tools into a system based on the sprayed or posted labels on the tools, and associating the tools with a work plan through the system;

and updating and recording the use state, detection information, inspection information and scrapping information of the tools.

Preferably, the approval process further comprises a deposit management process;

the storage management flow is used for:

associating each team or tool room to an administrator;

and associating the tool to the name and contact information of the administrator.

Preferably, the method further comprises:

checking tools and instruments based on a preset checking rule base, and pushing a checking result to an object associated with the current flow node;

the checking rule base comprises a tool filling standard, a tool state abnormal checking rule, a physical identification mark checking rule, a commissioning date checking rule, an asset identification checking rule, a delivery date checking rule, an overtime non-scrapped checking rule and an overtime non-checking rule.

A second aspect of the present application provides a tool management device based on a flow engine, including:

the approval starting unit is used for opening an approval process page associated with a user based on the user request, wherein the approval process is used for life cycle management of the power industry tools;

the form generation unit is used for generating form data based on the content input by the user on the approval process page, wherein the form data are used for describing approval requests of the user;

the approval execution unit is used for submitting the form data to a next flow node and determining whether the form data passes approval or not based on the response data of the flow node;

the approval process is recorded in the process engine project of the action framework in the form of a process file.

A third aspect of the present application provides a tool management device based on a flow engine, including: a memory and a processor;

the memory is used for storing programs;

the processor is configured to execute the program to implement each step of the tool management method based on the flow engine.

A fourth aspect of the present application provides a storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of a flow engine based tool management method as described above.

According to the technical scheme, firstly, on the basis of a user request, an approval process page related to the user is opened, wherein the approval process is used for life cycle management of power industry tools. And then, generating form data based on the content input by the user on the approval process page, wherein the form data is used for describing the approval request of the user. And finally, submitting the form data to a next flow node, and determining whether the form data pass approval or not based on the response data of the flow node. The approval process is recorded in the process engine project of the action framework in the form of a process file. The management of the whole life cycle of the tools is realized, and the safety of electric power operation is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present application, and that other drawings may be obtained according to the provided drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic diagram of a tool management method based on a process engine according to an embodiment of the present application;

FIG. 2 is another schematic diagram of tool management based on a process engine according to an embodiment of the present application;

FIG. 3 illustrates a fixture verification framework disclosed in an embodiment of the present application;

FIG. 4 is a schematic diagram of a tool management device based on a process engine according to an embodiment of the present disclosure;

fig. 5 is a schematic diagram of a tool management device based on a flow engine according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The tool management method based on the process engine provided by the embodiment of the application relies on an active process framework, and the whole design scheme is implemented in the following steps:

1) Introducing Activity through gradle and maven;

2) Creating flow files, wherein the related flow files are divided into 9 major categories, and each flow file divides task nodes;

3) Creating a flow table, initializing the flow, configuring a data source and building the table;

4) Starting a flow and examining and approving;

5) Approval or return.

However, since the Activity is only an approval operation and there is no return operation, the operation is controlled by adding a judgment condition to the flow.

The following describes a tool management method based on a flow engine provided in an embodiment of the present application. Referring to fig. 1, the tool management method based on the flow engine provided in the embodiment of the application may include the following steps:

step S101, based on the user request, opening an approval process page associated with the user.

The approval process is used for life cycle management of tools and instruments in the power industry. Specifically, the approval process relates to the establishment of data format and frame specification of the industry standard, and is a unified management platform for the internal and external construction units of the unit. By the management platform, the standing account data of different construction units are unified and integrated.

Form data associated with a current user is obtained by searching in a data source in advance, and then an approval process page associated with the user is generated and presented in a display screen.

Illustratively, the approval process may include configuration criteria, purchase management, acceptance links, ledger management, deposit management, use training, inspection management, discard process, and the like.

Step S102, form data is generated based on the content input by the user on the approval process page.

The form data is used for describing approval requests of users, such as approval types and contents.

Step S103, form data are submitted to the next flow node, and whether the form data pass approval is determined based on response data of the flow node.

The approval process is recorded in the process engine project of the action framework in the form of a process file. In this embodiment, only one approval node is involved, and in fact, multiple layers of approval may be included, i.e., there may be multiple approval nodes in series.

The process of managing the whole life cycle of the tool is enriched by using the action of the annotation flow engine, an adapter is provided for additionally arranging or changing the process on the management service in the future, more manpower and financial resources are not needed to be input, the service is driven by the engine, and the engine combines activities and behaviors such as information verification, so that the tool is a booster for managing the whole life cycle of the tool. Through the whole life management of the tools and the tools, the on-site management of a tool warehouse is lean, the host and the object of information report and the report content are templated, the report is timely, the report mode is various, and the links in multiple aspects ensure that the tools and the tools are in place in the whole process of using the pipe.

The method comprises the steps of firstly opening an approval process page associated with a user based on a user request, wherein the approval process is used for life cycle management of power industry tools. And then, generating form data based on the content input by the user on the approval process page, wherein the form data is used for describing the approval request of the user. And finally, submitting the form data to a next flow node, and determining whether the form data pass approval or not based on the response data of the flow node. The approval process is recorded in the process engine project of the action framework in the form of a process file. According to the method, under the working guidance and the working requirement of the work tool equivalent management of the safety production of the construction enterprise, the process tracking and supervision of the use of the work tool are enhanced according to the management rules of the whole life cycle of the work tool, the safety use check and management of the tool is ensured, the whole life cycle management and process closed loop of the work tool in the range of the large-group enterprise are ensured, and the digital application and intelligent analysis of the use of the safety and production work tool in the steps of configuration standard, purchase management, acceptance checking, account standing management, storage management, use training, detection management, scrapping treatment and the like are realized by utilizing the cloud material intelligence-moving technology.

In some embodiments of the present application, the approval process mentioned in step S101 may include a configuration management process. The configuration management flow is used for:

based on preset tool standards, the types and the numbers of tools are configured for the electric equipment installation class group, the power transmission construction class group, the power distribution construction class group, the distribution network live working class group and the high-voltage test class group.

Illustratively, a certain number of tools may be equipped or leased according to the self class type, the personnel number, the subcontracting number and the like, and the use of tools is more reasonable by providing different configurations for different classes according to the configuration standards as exemplified in table 1 and table 2.

Table 1: tool configuration standard for electric equipment installation class group

Table 2: tool configuration standard for electric equipment installation class group

In some embodiments of the present application, the approval process mentioned in step S101 further includes a purchase management process. The purchasing management flow is used for:

judging whether the tools and instruments purchased by the user are required to meet the requirements or not based on preset industry standards and technical specifications;

carrying out statistical analysis on historical tool use conditions;

and monitoring and checking the configuration condition of the tools.

The purchased or leased tools meet the requirements of national and industry mandatory standards and technical specifications, and pass through the type test of a third party detection mechanism with related qualification and the factory leave-factory test of a manufacturer; analyzing the use condition of the previous year tools; and (5) supervising and checking the conditions of the tools and instruments configured according to the requirements of the large group enterprises.

In some embodiments of the present application, the approval process mentioned in step S101 further includes an acceptance management process;

the acceptance management flow is used for:

checking and accepting the tools based on whether the appearance is good or not, namely whether the product specification is complete or not;

sampling and checking tools based on a preset technical specification;

notifying a preset detection unit to carry out full detection or spot detection on the tools within 3 months after the tools arrive in the goods;

and distributing the qualified detected tools to a using team, and returning the unqualified detected tools to the manufacturer.

Specifically, the organization checks the goods of the tools and instruments, and checks whether the appearance is good or not, and whether the data of the product specifications, the qualification certificates and the like are complete or not; sampling and checking the tools and instruments which arrive at the goods according to the technical specification; notifying a professional detection unit of completing the first full detection or the spot check within 3 months according to the related detection and check requirements, and then, putting the detected products into a use team after the detected products are qualified, and requiring manufacturers to replace the unqualified products for the unqualified detection tools; checking the condition of checking the tools and goods in each quarter, and supervising and urging large collective enterprises to carry out checking and accepting of the tools and tools according to requirements.

In some embodiments of the present application, the approval process mentioned in step S101 further includes a ledger administration process;

the ledger management flow is used for:

the stock accounts in each decentralized system are incorporated into a unified tool and appliance electronic account;

recording the tools into a system based on the sprayed or posted labels on the tools, and associating the tools with a work plan through the system;

and updating and recording the use state, detection information, inspection information and scrapping information of the tools.

For example, a tool electronic ledger may be created, the stock ledgers to be incorporated into each decentralized system, and the tools to be incorporated into the tool management module of the last asset management system in a unified manner; spraying or pasting labels on the tools and the instruments, inputting the labels into a system, and realizing the association between the tools and the work plan through the system; and updating the information of use, detection, inspection, scrapping and the like of the tools in time in the tool management system.

In some embodiments of the present application, the approval process mentioned in step S101 further includes a deposit management process. The storage management flow is used for:

associating each team or tool room to an administrator;

and associating the tool to the name and contact information of the administrator.

Specifically, the special management can be implemented on the tools, each team or tool house manager can associate the name and contact information of the tool manager with the tools

In some embodiments of the present application, the approval process mentioned in step S101 further includes a training management process. The training management flow is used for:

the training of the manager and the user of the tools is managed, and comprises the use, inspection and maintenance of the tools.

For example, the device and the method can be used for training the content of the new staff, the tool management, the use staff, the use of tools, the inspection, the maintenance and the like of the sub-packaging units of the labor service, and guiding and supervising the sub-packaging units of the professionals to perform the same training.

In some embodiments of the present application, the approval process mentioned in step S101 may further include a use management process.

Specifically, when the tool is used, a leader needs to provide a corresponding operation plan for a tool manager, and cannot get the tool without planning; tools that exceed the inspection cycle must not be used. The insulated safety tool should be placed in the special sheath or tool box during use and carrying, so as to prevent from being wetted, damaged and stained; the tools and instruments need to be returned and put in storage after the use of the tools and instruments on the day, and the tools and instruments need to be put in the working site or the construction vehicle and the like.

In some embodiments of the present application, the approval process mentioned in step S101 may further include a detection management process.

For example, the detection result can be input into an information system, the qualified tools should be attached with qualified labels, the labels should be marked with the testing organization (person), the testing date and the next testing date, and attached to the tools or the obvious positions corresponding to the storage positions, and unqualified tools are forbidden to be used.

In some embodiments of the present application, the approval process mentioned in step S101 may further include a discard management process.

Specifically, the state of the system ledger can be updated in time after the tools are scrapped.

In some embodiments of the present application, as shown in fig. 2, the tool management method based on the flow engine provided in the embodiment of the present application may further include:

and step S104, checking the tools and instruments based on a preset checking rule base, and pushing the checking result to an object associated with the current flow node.

As shown in fig. 3, the checking rule base includes a tool filling rule, a tool state abnormal checking rule, a physical identification mark checking rule, a commissioning date checking rule, an asset identification checking rule, a delivery date checking rule, an overtime non-scrapped checking rule and an overtime non-checking rule.

The checking is synchronously performed in the management flow through the tool state checking, and the common problems to be checked are included in the rule base as the basis of process checking in the form of a unified tool checking rule base, wherein the common checking problems comprise checking information standard of a tool account, whether the expected discard date exceeds the period, whether the next check date exceeds the period, the commissioning date is later than the last check date, the delivery date is later than the last check date and the like. And pushing the checking result of the tools and instruments according to the right department and the receiving department in the ledger information, and alarming abnormal information in the system.

The application of the approval flow engine actiti reduces the approval time and the complicated links in the flow through the clear flow and the specified time node so as to improve the working efficiency; unnecessary cost and resource waste are avoided through standardization of the flow, and the fund utilization efficiency is improved; through the design and execution of the approval process, the smooth proceeding of the activities is ensured so as to reduce the change and cancellation of the activity plan caused by approval delay.

The whole life cycle management is combined with the process information verification, the verification information is reported in a flow driver, the problems of monitoring and checking in the process of tool management are solved, the reported subjects and objects solve the problem of the responsible person in the process of tool management, and meanwhile, the verification result is timely pushed to an upper asset management system to finish reporting work. Solves the problems of supervision in place and reporting fast.

The process engine-based tool management device provided in the embodiments of the present application will be described below, and the process engine-based tool management device described below and the process engine-based tool management method described above may be referred to correspondingly.

Referring to fig. 4, a tool management device based on a flow engine provided in an embodiment of the present application may include:

an approval starting unit 21, configured to open an approval process page associated with a user based on a user request, where the approval process is used for lifecycle management of power industry tools;

a form generating unit 22, configured to generate form data based on the content input by the user on the approval process page, where the form data is used to describe an approval request of the user;

an approval execution unit 23, configured to submit the form data to a next flow node, and determine whether the form data passes approval based on response data of the flow node;

the approval process is recorded in the process engine project of the action framework in the form of a process file.

In some embodiments of the present application, the approval process includes a configuration management process;

the configuration management flow is used for:

based on preset tool standards, the types and the numbers of tools are configured for the electric equipment installation class group, the power transmission construction class group, the power distribution construction class group, the distribution network live working class group and the high-voltage test class group.

In some embodiments of the present application, the approval process further includes a purchase management process;

the purchase management flow is used for:

judging whether the tools and instruments purchased by the user are required to meet the requirements or not based on preset industry standards and technical specifications;

carrying out statistical analysis on historical tool use conditions;

and monitoring and checking the configuration condition of the tools.

In some embodiments of the present application, the approval process further includes an acceptance management process;

the acceptance management flow is used for:

checking and accepting the tools based on whether the appearance is good or not, namely whether the product specification is complete or not;

sampling and checking tools based on a preset technical specification;

notifying a preset detection unit to carry out full detection or spot detection on the tools within 3 months after the tools arrive in the goods;

and distributing the qualified detected tools to a using team, and returning the unqualified detected tools to the manufacturer.

In some embodiments of the present application, the approval process further includes a ledger administration process;

the ledger management flow is used for:

the stock accounts in each decentralized system are incorporated into a unified tool and appliance electronic account;

recording the tools into a system based on the sprayed or posted labels on the tools, and associating the tools with a work plan through the system;

and updating and recording the use state, detection information, inspection information and scrapping information of the tools.

In some embodiments of the present application, the approval process further includes a deposit management process;

the storage management flow is used for:

associating each team or tool room to an administrator;

and associating the tool to the name and contact information of the administrator.

In some embodiments of the present application, the process engine-based tool management apparatus may further include a tool checking unit for:

checking tools and instruments based on a preset checking rule base, and pushing a checking result to an object associated with the current flow node;

the checking rule base comprises a tool filling standard, a tool state abnormal checking rule, a physical identification mark checking rule, a commissioning date checking rule, an asset identification checking rule, a delivery date checking rule, an overtime non-scrapped checking rule and an overtime non-checking rule.

The tool management device based on the flow engine provided by the embodiment of the application can be applied to tool management equipment based on the flow engine, such as a computer and the like. Alternatively, fig. 5 shows a hardware configuration block diagram of the flow engine-based tool management apparatus, and referring to fig. 5, the hardware configuration of the flow engine-based tool management apparatus may include: at least one processor 31, at least one communication interface 32, at least one memory 33 and at least one communication bus 34.

In the embodiment of the present application, the number of the processor 31, the communication interface 32, the memory 33, and the communication bus 34 is at least one, and the processor 31, the communication interface 32, and the memory 33 complete communication with each other through the communication bus 34;

the processor 31 may be a central processing unit CPU, or a specific integrated circuit ASIC (Application Specific Integrated Circuit), or one or more integrated circuits configured to implement embodiments of the present application, etc.;

the memory 33 may include a high-speed RAM memory, and may further include a non-volatile memory (non-volatile memory) or the like, such as at least one magnetic disk memory;

wherein the memory 33 stores a program, the processor 31 may call the program stored in the memory 33, the program being for:

opening an approval process page associated with a user based on the user request, wherein the approval process is used for life cycle management of power industry tools;

generating form data based on the content input by the user on the approval process page, wherein the form data is used for describing an approval request of the user;

submitting the form data to a next flow node, and determining whether the form data passes approval or not based on response data of the flow node;

the approval process is recorded in the process engine project of the action framework in the form of a process file.

Alternatively, the refinement function and the extension function of the program may be described with reference to the above.

The embodiment of the application also provides a storage medium, which may store a program adapted to be executed by a processor, the program being configured to:

opening an approval process page associated with a user based on the user request, wherein the approval process is used for life cycle management of power industry tools;

generating form data based on the content input by the user on the approval process page, wherein the form data is used for describing an approval request of the user;

submitting the form data to a next flow node, and determining whether the form data passes approval or not based on response data of the flow node;

the approval process is recorded in the process engine project of the action framework in the form of a process file.

Alternatively, the refinement function and the extension function of the program may be described with reference to the above.

To sum up:

the method comprises the steps of firstly opening an approval process page associated with a user based on a user request, wherein the approval process is used for life cycle management of power industry tools. And then, generating form data based on the content input by the user on the approval process page, wherein the form data is used for describing the approval request of the user. And finally, submitting the form data to a next flow node, and determining whether the form data pass approval or not based on the response data of the flow node. The approval process is recorded in the process engine project of the action framework in the form of a process file. According to the method, under the working guidance and the working requirement of the work tool equivalent management of the safety production of the construction enterprise, the process tracking and supervision of the use of the work tool are enhanced according to the management rules of the whole life cycle of the work tool, the safety use check and management of the tool is ensured, the whole life cycle management and process closed loop of the work tool in the range of the large-group enterprise are ensured, and the digital application and intelligent analysis of the use of the safety and production work tool in the steps of configuration standard, purchase management, acceptance checking, account standing management, storage management, use training, detection management, scrapping treatment and the like are realized by utilizing the cloud material intelligence-moving technology.

Finally, it is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In the present specification, each embodiment is described in a progressive manner, and each embodiment focuses on the difference from other embodiments, and may be combined according to needs, and the same similar parts may be referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A process engine-based tool management method, comprising:

opening an approval process page associated with a user based on the user request, wherein the approval process is used for life cycle management of power industry tools;

generating form data based on the content input by the user on the approval process page, wherein the form data is used for describing an approval request of the user;

submitting the form data to a next flow node, and determining whether the form data passes approval or not based on response data of the flow node;

the approval process is recorded in the process engine project of the action framework in the form of a process file.

2. The method of claim 1, wherein the approval process comprises a configuration management process;

the configuration management flow is used for:

based on preset tool standards, the types and the numbers of tools are configured for the electric equipment installation class group, the power transmission construction class group, the power distribution construction class group, the distribution network live working class group and the high-voltage test class group.

3. The method of claim 2, wherein the approval process further comprises a purchase management process;

the purchase management flow is used for:

judging whether the tools and instruments purchased by the user are required to meet the requirements or not based on preset industry standards and technical specifications;

carrying out statistical analysis on historical tool use conditions;

and monitoring and checking the configuration condition of the tools.

4. The method of claim 3, wherein the approval process further comprises an acceptance management process;

the acceptance management flow is used for:

checking and accepting the tools based on whether the appearance is good or not, namely whether the product specification is complete or not;

sampling and checking tools based on a preset technical specification;

notifying a preset detection unit to carry out full detection or spot detection on the tools within 3 months after the tools arrive in the goods;

and distributing the qualified detected tools to a using team, and returning the unqualified detected tools to the manufacturer.

5. The method of claim 4, wherein the approval process further comprises a ledger administration process;

the ledger management flow is used for:

the stock accounts in each decentralized system are incorporated into a unified tool and appliance electronic account;

recording the tools into a system based on the sprayed or posted labels on the tools, and associating the tools with a work plan through the system;

and updating and recording the use state, detection information, inspection information and scrapping information of the tools.

6. The method of claim 5, wherein the approval process further comprises a deposit management process;

the storage management flow is used for:

associating each team or tool room to an administrator;

and associating the tool to the name and contact information of the administrator.

7. The method as recited in claim 1, further comprising:

checking tools and instruments based on a preset checking rule base, and pushing a checking result to an object associated with the current flow node;

the checking rule base comprises a tool filling standard, a tool state abnormal checking rule, a physical identification mark checking rule, a commissioning date checking rule, an asset identification checking rule, a delivery date checking rule, an overtime non-scrapped checking rule and an overtime non-checking rule.

8. A tool management device based on a flow engine, comprising:

the approval starting unit is used for opening an approval process page associated with a user based on the user request, wherein the approval process is used for life cycle management of the power industry tools;

the form generation unit is used for generating form data based on the content input by the user on the approval process page, wherein the form data are used for describing approval requests of the user;

the approval execution unit is used for submitting the form data to a next flow node and determining whether the form data passes approval or not based on the response data of the flow node;

the approval process is recorded in the process engine project of the action framework in the form of a process file.

9. A process engine-based tool management apparatus, comprising: a memory and a processor;

the memory is used for storing programs;

the processor is configured to execute the program to implement the steps of the flow engine-based tool management method according to any one of claims 1 to 7.

10. A storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the flow engine-based tool management method of any one of claims 1 to 7.