CN113723911A - Nuclear power plant unit management method, device, equipment and storage medium - Google Patents

Abstract

The invention discloses a nuclear power plant unit management method, a device, equipment and a storage medium, wherein the method comprises the steps of acquiring a power plant structure relation tree corresponding to nuclear power plant unit data; determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree; performing node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object; the method can support any number of node objects, support the personalized management requirements of the nuclear power plant on field hierarchy configuration, support the definition of the hierarchy relationship of the power plant in the configuration type, determine whether to control according to strict hierarchy by the personalized configuration of the nuclear power plant, prevent the risk of the production flow while ensuring the data quality, visually perform the association query of the nuclear power plant unit, ensure the timeliness and accuracy of data model relationship inspection and business risk inspection, and improve the safety and stability of the production management of the nuclear power plant.

Description

Nuclear power plant unit management method, device, equipment and storage medium

Technical Field

The invention relates to the technical field of nuclear power plant production, in particular to a nuclear power plant unit management method, device, equipment and storage medium.

Background

At present, in the safety production management of a nuclear power plant, a current production management system has no special nuclear power plant unit management function, and in actual service, a part of system building and equipment value lists are defined in configuration items only according to service requirements, so that the association query of the nuclear power plant unit cannot be intuitively carried out.

Disclosure of Invention

The invention mainly aims to provide a nuclear power plant unit management method, a nuclear power plant unit management device, equipment and a storage medium, and aims to solve the technical problems that in the prior art, an effective nuclear power plant unit management function is lacked in production management of a nuclear power plant, and correlation inquiry of nuclear power plant units cannot be intuitively carried out.

In a first aspect, the present invention provides a nuclear power plant unit management method, including the following steps:

acquiring a power plant structure relation tree corresponding to nuclear power plant unit data;

determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree;

and carrying out node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object.

Optionally, the obtaining a power plant structure relationship tree corresponding to nuclear power plant unit data includes:

obtaining nuclear power plant unit data, and obtaining the information of the affiliated power plant and unit from the nuclear power plant unit data;

and searching a power plant structure relation tree corresponding to the information of the power plant and the unit in a preset database, wherein the power plant structure relation tree reflects the corresponding relation among systems, structures and equipment.

Optionally, the determining all the data objects and the hierarchical relationship between the data objects according to the power plant structure relationship tree includes:

taking systems, structures and equipment in the power plant structure relation tree as data objects;

and acquiring ID attributes corresponding to the data objects, acquiring association information among the ID attributes, and determining the hierarchical relationship among the data objects according to the association information.

Optionally, the performing node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object includes:

configuring corresponding node types and node numbers for the data objects according to the hierarchical relationship and a preset node configuration rule;

and inquiring and updating the nuclear power plant unit according to the configured data object.

Optionally, the querying and updating the nuclear power plant unit according to the configured data object includes:

acquiring data nodes of the configured data objects, and inquiring equipment information, document data and work order information under the data nodes;

generating an inquiry report according to the equipment information, the document data and the work order information, and feeding back the inquiry report;

authenticating the operation authority of the nuclear power plant group, and obtaining the current operation type after the authentication is passed;

and updating the nuclear power plant unit according to the current operation type.

Optionally, the performing an update operation on the nuclear power plant unit according to the current operation type includes:

when the current operation type is increased, checking the content field type and length of the current increased content, and inputting the current increased content after repeated checking and passing;

when the current operation type is modification, checking the modification field type and length of the current modification content, and judging whether the current modification content affects the hierarchical relationship after repeated checking and passing;

when the current modification content does not influence the hierarchical relationship, inputting the current modification content;

and when the current operation type is deletion, judging whether the current deletion content affects the hierarchical relationship, and when the current deletion content does not affect the hierarchical relationship, allowing the current deletion content to be deleted.

Optionally, after the node type configuration is performed on each data object according to the hierarchical relationship and the nuclear power plant unit is managed according to the configured data object, the method for managing the nuclear power plant unit further includes:

detecting the radiation value of a radiation area in real time, matching the radiation value with a preset radiation range, and obtaining a matching result;

and dividing the radiation area into a overhaul radiation area and a daily radiation area according to the matching result.

In a second aspect, to achieve the above object, the present invention further provides a nuclear power plant unit management device, including:

the system comprises an acquisition module, a storage module and a control module, wherein the acquisition module is used for acquiring a power plant structure relation tree corresponding to nuclear power plant unit data;

the hierarchical relation determining module is used for determining all data objects and the hierarchical relation among the data objects according to the power plant structure relation tree;

and the management module is used for configuring the node type of each data object according to the hierarchical relationship and managing the nuclear power plant unit according to the configured data objects.

In a third aspect, to achieve the above object, the present invention further provides a nuclear power plant unit management device, including: a memory, a processor, and a nuclear power plant unit management program stored on the memory and operable on the processor, the nuclear power plant unit management program configured to implement the steps of the nuclear power plant unit management method as recited in the preceding claims.

In a fourth aspect, to achieve the above object, the present invention further provides a storage medium, where a nuclear power plant unit management program is stored, and the nuclear power plant unit management program, when executed by a processor, implements the steps of the nuclear power plant unit management method as described above.

According to the nuclear power plant unit management method, a power plant structure relation tree corresponding to nuclear power plant unit data is obtained; determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree; performing node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object; the method can support any number of node objects, supports the self-defined node types of the nuclear power plant, supports the personalized management requirements of the nuclear power plant in field level configuration, supports the definition of level relations of the nuclear power plant in the configuration types, determines whether strict level control is carried out or not according to the personalized configuration of the nuclear power plant, guarantees the data quality, prevents the risks of the production flow, can visually carry out association inquiry of nuclear power plant units, guarantees the timeliness and the accuracy of data model relation checking and business risk checking, and improves the safety and the stability of the production management of the nuclear power plant.

Drawings

FIG. 1 is a schematic diagram of an apparatus architecture of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a nuclear power plant unit management method according to a first embodiment of the present invention;

FIG. 3 is a schematic flow chart of a nuclear power plant unit management method according to a second embodiment of the present invention;

FIG. 4 is a schematic flow chart of a nuclear power plant unit management method according to a third embodiment of the present invention;

FIG. 5 is a schematic flow chart of a unit management method for a nuclear power plant according to a fourth embodiment of the present invention;

FIG. 6 is a schematic flow chart of a fifth embodiment of a nuclear power plant unit management method according to the present invention;

FIG. 7 is a schematic flow chart illustrating a unit management method for a nuclear power plant according to a sixth embodiment of the present invention;

fig. 8 is a functional block diagram of a nuclear power plant unit management apparatus according to a first embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The solution of the embodiment of the invention is mainly as follows: obtaining a power plant structure relation tree corresponding to nuclear power plant unit data; determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree; performing node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object; the method can support any number of node objects, support self-defined node types of the nuclear power plant, support the personalized management requirements of the nuclear power plant in field level configuration, support the definition of level relationships of the nuclear power plant in the configuration types, determine whether strict level control is performed or not according to the personalized configuration of the nuclear power plant, ensure the data quality, prevent the risks of a production flow, visually perform association query of the nuclear power plant units, ensure the timeliness and accuracy of data model relationship check and business risk check, improve the safety and stability of the production management of the nuclear power plant, and solve the technical problems that in the prior art, the nuclear power plant unit management function is insufficient in the production management of the nuclear power plant, and the association query of the nuclear power plant units cannot be visually performed.

Referring to fig. 1, fig. 1 is a schematic device structure diagram of a hardware operating environment according to an embodiment of the present invention.

As shown in fig. 1, the apparatus may include: a processor 1001, such as a CPU, a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., a Wi-Fi interface). The Memory 1005 may be a high-speed RAM Memory or a Non-Volatile Memory (Non-Volatile Memory), such as a disk Memory. The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the configuration of the apparatus shown in fig. 1 is not intended to be limiting of the apparatus and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, a storage 1005, which is a storage medium, may include therein an operating system, a network communication module, a user interface module, and a nuclear power plant unit management program.

The device calls a nuclear power plant unit management program stored in a memory 1005 through a processor 1001, and executes the following operations:

acquiring a power plant structure relation tree corresponding to nuclear power plant unit data;

determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree;

and carrying out node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object.

The device calls a nuclear power plant unit management program stored in a memory 1005 through a processor 1001, and further performs the following operations:

obtaining nuclear power plant unit data, and obtaining the information of the affiliated power plant and unit from the nuclear power plant unit data;

and searching a power plant structure relation tree corresponding to the information of the power plant and the unit in a preset database, wherein the power plant structure relation tree reflects the corresponding relation among systems, structures and equipment.

The device calls a nuclear power plant unit management program stored in a memory 1005 through a processor 1001, and further performs the following operations:

taking systems, structures and equipment in the power plant structure relation tree as data objects;

and acquiring ID attributes corresponding to the data objects, acquiring association information among the ID attributes, and determining the hierarchical relationship among the data objects according to the association information.

The device calls a nuclear power plant unit management program stored in a memory 1005 through a processor 1001, and further performs the following operations:

configuring corresponding node types and node numbers for the data objects according to the hierarchical relationship and a preset node configuration rule;

and inquiring and updating the nuclear power plant unit according to the configured data object.

The device calls a nuclear power plant unit management program stored in a memory 1005 through a processor 1001, and further performs the following operations:

acquiring data nodes of the configured data objects, and inquiring equipment information, document data and work order information under the data nodes;

generating an inquiry report according to the equipment information, the document data and the work order information, and feeding back the inquiry report;

authenticating the operation authority of the nuclear power plant group, and obtaining the current operation type after the authentication is passed;

and updating the nuclear power plant unit according to the current operation type.

The device calls a nuclear power plant unit management program stored in a memory 1005 through a processor 1001, and further performs the following operations:

when the current operation type is increased, checking the content field type and length of the current increased content, and inputting the current increased content after repeated checking and passing;

when the current operation type is modification, checking the modification field type and length of the current modification content, and judging whether the current modification content affects the hierarchical relationship after repeated checking and passing;

when the current modification content does not influence the hierarchical relationship, inputting the current modification content;

and when the current operation type is deletion, judging whether the current deletion content affects the hierarchical relationship, and when the current deletion content does not affect the hierarchical relationship, allowing the current deletion content to be deleted.

The device calls a nuclear power plant unit management program stored in a memory 1005 through a processor 1001, and further performs the following operations:

detecting the radiation value of a radiation area in real time, matching the radiation value with a preset radiation range, and obtaining a matching result;

and dividing the radiation area into a overhaul radiation area and a daily radiation area according to the matching result.

According to the scheme, the power plant structure relation tree corresponding to the nuclear power plant unit data is obtained; determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree; performing node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object; the method can support any number of node objects, supports the self-defined node types of the nuclear power plant, supports the personalized management requirements of the nuclear power plant in field level configuration, supports the definition of level relations of the nuclear power plant in the configuration types, determines whether strict level control is carried out or not according to the personalized configuration of the nuclear power plant, guarantees the data quality, prevents the risks of the production flow, can visually carry out association inquiry of nuclear power plant units, guarantees the timeliness and the accuracy of data model relation checking and business risk checking, and improves the safety and the stability of the production management of the nuclear power plant.

Based on the hardware structure, the embodiment of the nuclear power plant unit management method is provided.

Referring to fig. 2, fig. 2 is a schematic flow chart of a nuclear power plant unit management method according to a first embodiment of the present invention.

In a first embodiment, the nuclear power plant unit management method includes the following steps:

and S10, acquiring a power plant structure relation tree corresponding to the nuclear power plant unit data.

It should be noted that the power plant Structure relationship tree is a relationship tree of correspondence between related systems, structures and devices in production management of a nuclear power plant, and may be generally referred to as an SSCs relationship tree for short, that is, a System (System), a Structure (Structure) and a device (Component), and the nuclear power plant unit data is unit data generated by a nuclear power plant unit in production operation.

And S20, determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree.

It should be noted that different data objects exist in different units, and various object data entities, that is, data objects, and corresponding hierarchical relationships between the data objects can be determined through the power plant structure relationship tree.

And S30, performing node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data objects.

It should be noted that node type configuration can be performed on each data object through the hierarchical relationship, and node type configuration is performed on each data object through a preset rule, so that data objects between different layers are clearly determined, and management is performed on the nuclear power plant unit according to the configured data objects.

According to the scheme, the power plant structure relation tree corresponding to the nuclear power plant unit data is obtained; determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree; performing node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object; the method can support any number of node objects, supports the self-defined node types of the nuclear power plant, supports the personalized management requirements of the nuclear power plant in field level configuration, supports the definition of level relations of the nuclear power plant in the configuration types, determines whether strict level control is carried out or not according to the personalized configuration of the nuclear power plant, guarantees the data quality, prevents the risks of the production flow, can visually carry out association inquiry of nuclear power plant units, guarantees the timeliness and the accuracy of data model relation checking and business risk checking, and improves the safety and the stability of the production management of the nuclear power plant.

Further, fig. 3 is a flowchart illustrating a second embodiment of the nuclear power plant unit management method according to the present invention, and as shown in fig. 3, the second embodiment of the nuclear power plant unit management method according to the present invention is provided based on the first embodiment, in this embodiment, the step S10 includes the following steps:

and S11, acquiring nuclear power plant unit data, and acquiring the information of the power plant and the unit from the nuclear power plant unit data.

It should be noted that the nuclear power plant unit data is acquired, and the plant information and the unit information corresponding to the nuclear power plant unit data can be obtained.

And S12, searching a power plant structure relation tree corresponding to the power plant and the unit information in a preset database, wherein the power plant structure relation tree reflects the corresponding relation among systems, structures and equipment.

It can be understood that the preset database is a preset database, unit information of each nuclear power plant unit and power plant structure relation trees corresponding to different unit information are stored in the preset database, the power plant structure relation trees reflect corresponding relations among systems, structures and equipment, and the power plant structure relation trees can show a power plant level system structure equipment map to users and support multi-dimensional and multi-level retrieval and query.

According to the scheme, the information of the power plant and the unit is obtained from the nuclear power plant unit data by obtaining the nuclear power plant unit data; searching a power plant structure relation tree corresponding to the information of the power plant and the unit in a preset database, wherein the power plant structure relation tree reflects the corresponding relation among systems, structures and equipment; the method can support any number of node objects, self-defined node types of the nuclear power plant, multi-dimensional and multi-level retrieval and query, can visually perform association query of the nuclear power plant unit, and guarantees timeliness and accuracy of data model relation check and business risk check.

Further, fig. 4 is a schematic flow chart of a third embodiment of the nuclear power plant unit management method according to the present invention, and as shown in fig. 4, the third embodiment of the nuclear power plant unit management method according to the present invention is provided based on the second embodiment, in this embodiment, the step S20 includes the following steps:

and step S21, taking the system, the structure and the equipment in the power plant structure relation tree as data objects.

It should be noted that, a plurality of data objects are generally designed in the power plant structure relationship tree, wherein a system, a structure and a device can be used as the data object in the power plant structure relationship tree.

Step S22, obtaining ID attributes corresponding to the data objects, obtaining association information between the ID attributes, and determining a hierarchical relationship between the data objects according to the association information.

It can be understood that the system, the structure and the equipment object are processed according to the data entity object, the attributes of the power plant and the unit can be distinguished, generally, the same system abbreviation code belongs to different data objects in different units and is not universal, and the hierarchical relationship can be established between the object data entities through the association ID attribute, namely, the hierarchical relationship between the data objects is determined according to the association information through the association information between the ID attributes.

According to the scheme, the system, the structure and the equipment in the power plant structure relation tree are used as data objects; the method comprises the steps of obtaining ID attributes corresponding to all data objects, obtaining correlation information among the ID attributes, determining the hierarchical relationship among the data objects according to the correlation information, and performing correlation inquiry on the nuclear power plant unit visually, so that timeliness and accuracy of data model relationship inspection and business risk inspection are guaranteed.

Further, fig. 5 is a schematic flow chart of a fourth embodiment of the nuclear power plant unit management method according to the present invention, and as shown in fig. 5, the fourth embodiment of the nuclear power plant unit management method according to the present invention is provided based on the first embodiment, and in this embodiment, the step S30 specifically includes the following steps:

and step S31, configuring corresponding node types and node numbers for the data objects according to the hierarchical relationship and preset node configuration rules.

It should be noted that the preset node configuration rule is a preset node configuration setting rule, and the corresponding node type and number can be configured for each data object through the hierarchical relationship and the preset node configuration rule, so that an administrator can modify the node type and the number intuitively.

In the specific implementation, the power plant structure relationship tree reserves a plurality of level numbers for later configuration modification, the power plant structure relationship tree is generally allowed to be started when needed, and a new level can be added according to needs after the SSCs tree is formed in the later maintenance period.

And step S32, inquiring and updating the nuclear power plant unit according to the configured data object.

It will be appreciated that the nuclear power plant unit may be quickly queried and updated via configured data objects.

According to the scheme, the corresponding node type and node number are configured for each data object according to the hierarchical relationship and the preset node configuration rule; the nuclear power plant unit is inquired and updated according to the configured data objects, any number of node objects can be supported, the self-defined node types of the nuclear power plant are supported, the personalized management requirements of the nuclear power plant are configured at the field level, and the definition of the level relation of the nuclear power plant during the configuration of the type is supported.

Further, fig. 6 is a schematic flow chart of a fifth embodiment of the nuclear power plant unit management method according to the present invention, and as shown in fig. 6, the fifth embodiment of the nuclear power plant unit management method according to the present invention is provided based on the fourth embodiment, in this embodiment, the step S32 specifically includes the following steps:

step S321, acquiring the data node of the configured data object, and querying the device information, the document data, and the work order information under the data node.

It should be noted that, the data node of the configured data object is obtained, and information such as device information, document data, and work order under the data node can be queried, that is, information such as device, document, and work order under the node can be quickly queried through the data node.

And step S322, generating an inquiry report according to the equipment information, the document data and the work order information, and feeding back the inquiry report.

It is understood that the query report can be generated by comprehensively summarizing the device information, the document data, and the work order information, and the query report is fed back.

And S323, authenticating the operation authority of the nuclear power plant group, and obtaining the current operation type after the authentication is passed.

It should be understood that the authentication of the operation authority of the nuclear power plant group can determine whether the operation of the current operation has the matched operation authority, so that the type of the current operation is obtained after the authentication is passed.

And S324, updating the nuclear power plant unit according to the current operation type.

It is understood that the updating operation of the corresponding nuclear power plant unit information can be specifically performed through the current operation type, and generally comprises adding, modifying and deleting operations.

Further, the step S324 includes the steps of:

when the current operation type is increased, checking the content field type and length of the current increased content, and inputting the current increased content after repeated checking and passing;

when the current operation type is modification, checking the modification field type and length of the current modification content, and judging whether the current modification content affects the hierarchical relationship after repeated checking and passing;

when the current modification content does not influence the hierarchical relationship, inputting the current modification content;

and when the current operation type is deletion, judging whether the current deletion content affects the hierarchical relationship, and when the current deletion content does not affect the hierarchical relationship, allowing the current deletion content to be deleted.

It should be understood that, when adding, the added content field type and length can be checked, the checking of the necessary item and the checking of the repeated item can be generally performed, one-time checking can be performed, or multiple repeated checks can be performed, and after the checking and passing, the library writing operation can be performed, that is, the added content after passing is written into the database, so as to complete the entry; when the current operation type is modification, the type and the length of the modification field can be checked, and business influence is judged after the check is passed, so that whether the current modification content influences the hierarchical relationship is determined; when the current modification content does not influence the hierarchical relationship, the current modification content is input, namely library writing operation is carried out; accordingly, when the deletion operation is performed, it is necessary to determine whether the deletion content affects the service, that is, whether the hierarchical relationship is affected, and when the deletion content does not affect the hierarchical relationship, the deletion operation is allowed to be performed.

In a specific implementation, preference setting can be performed on all fields of system, structure and device objects in a Conceptual Data Model (CDM), for example: defining configuration parameters such as whether to fill, whether to inquire, whether to upgrade, whether to record a modification process, a modification mode, a default value and customized output logic; configuration entries may be provided at the debug module and the production module, respectively, to support independent configuration parameters; accordingly, static checking rules may be configured that restrict which objects or fields are not allowed to be updated based on impact analysis of other modules' static data unless the impact relationships are first removed.

According to the scheme, the device information, the document data and the work order information under the data nodes are inquired by acquiring the data nodes of the configured data objects; generating an inquiry report according to the equipment information, the document data and the work order information, and feeding back the inquiry report; authenticating the operation authority of the nuclear power plant group, and obtaining the current operation type after the authentication is passed; updating the nuclear power plant unit according to the current operation type; the association query of the nuclear power plant units can be visually carried out, the timeliness and the accuracy of data model relation inspection and business risk inspection are guaranteed, and the safety and the stability of production management of the nuclear power plant are improved.

Further, fig. 7 is a flowchart illustrating a sixth embodiment of a nuclear power plant unit management method according to the present invention, and as shown in fig. 7, the sixth embodiment of the nuclear power plant unit management method according to the present invention is proposed based on the fifth embodiment, in this embodiment, after the step S30, the nuclear power plant unit management method further includes the following steps:

and step S40, detecting the radiation value of the radiation area in real time, matching the radiation value with a preset radiation range, and obtaining a matching result.

It should be noted that a pre-planned radiation area exists in the nuclear power plant unit, the preset radiation range is a preset radiation distinguishing range, and a matching result can be obtained by detecting the radiation value of the radiation area in real time to match with the preset radiation range.

And step S50, dividing the radiation area into a overhaul radiation area and a daily radiation area according to the matching result.

It can be understood that, generally, according to the preset radiation protection module requirement, the radiation subarea can be divided into an overhaul radiation area and a daily radiation area by combining the matching result.

According to the scheme, the radiation value of the radiation area is detected in real time, the radiation value is matched with the preset radiation range, and a matching result is obtained; the radiation area is divided into an overhaul radiation area and a daily radiation area according to the matching result, any number of node objects can be supported, the self-defined node type of the nuclear power plant is supported, the personalized management requirement of the nuclear power plant on field hierarchy configuration is supported, the hierarchy relationship of the nuclear power plant is defined when the nuclear power plant is configured, whether strict hierarchy control is carried out or not is determined through the personalized configuration of the nuclear power plant, and the risk of the production flow is prevented while the data quality is ensured.

Correspondingly, the invention further provides a nuclear power plant unit management device.

Referring to fig. 8, fig. 8 is a functional block diagram of a nuclear power plant unit management apparatus according to a first embodiment of the present invention.

In a first embodiment of the nuclear power plant unit management apparatus of the present invention, the nuclear power plant unit management apparatus includes:

the obtaining module 10 is configured to obtain a power plant structure relationship tree corresponding to nuclear power plant unit data.

And the hierarchical relationship determining module 20 is configured to determine all the data objects and the hierarchical relationship between the data objects according to the power plant structure relationship tree.

And the management module 30 is configured to perform node type configuration on each data object according to the hierarchical relationship, and manage the nuclear power plant unit according to the configured data object.

The obtaining module 10 is further configured to obtain nuclear power plant unit data, and obtain information of a power plant and a unit from the nuclear power plant unit data; and searching a power plant structure relation tree corresponding to the information of the power plant and the unit in a preset database, wherein the power plant structure relation tree reflects the corresponding relation among systems, structures and equipment.

The hierarchical relationship determining module 20 is further configured to use the systems, structures and devices in the power plant structure relationship tree as data objects; and acquiring ID attributes corresponding to the data objects, acquiring association information among the ID attributes, and determining the hierarchical relationship among the data objects according to the association information.

The management module 30 is further configured to configure corresponding node types and node numbers for the data objects according to the hierarchical relationship and a preset node configuration rule; and inquiring and updating the nuclear power plant unit according to the configured data object.

The management module 30 is further configured to acquire a data node of the configured data object, and query the device information, the document data, and the work order information under the data node; generating an inquiry report according to the equipment information, the document data and the work order information, and feeding back the inquiry report; authenticating the operation authority of the nuclear power plant group, and obtaining the current operation type after the authentication is passed; and updating the nuclear power plant unit according to the current operation type.

The management module 30 is further configured to check the content field type and length of the currently added content when the current operation type is increased, and enter the currently added content after the content field type and length are repeatedly checked and passed; when the current operation type is modification, checking the modification field type and length of the current modification content, and judging whether the current modification content affects the hierarchical relationship after repeated checking and passing; when the current modification content does not influence the hierarchical relationship, inputting the current modification content; and when the current operation type is deletion, judging whether the current deletion content affects the hierarchical relationship, and when the current deletion content does not affect the hierarchical relationship, allowing the current deletion content to be deleted.

The management module 30 is further configured to detect a radiation value of the radiation area in real time, match the radiation value with a preset radiation range, and obtain a matching result; and dividing the radiation area into a overhaul radiation area and a daily radiation area according to the matching result.

The steps implemented by each functional module of the nuclear power plant unit management device can refer to each embodiment of the nuclear power plant unit management selection method, and are not described herein again.

In addition, an embodiment of the present invention further provides a storage medium, where a nuclear power plant unit management program is stored on the storage medium, and when executed by a processor, the nuclear power plant unit management program implements the following operations:

acquiring a power plant structure relation tree corresponding to nuclear power plant unit data;

determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree;

and carrying out node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object.

Further, when executed by the processor, the nuclear power plant unit management program further implements the following operations:

obtaining nuclear power plant unit data, and obtaining the information of the affiliated power plant and unit from the nuclear power plant unit data;

and searching a power plant structure relation tree corresponding to the information of the power plant and the unit in a preset database, wherein the power plant structure relation tree reflects the corresponding relation among systems, structures and equipment.

Further, when executed by the processor, the nuclear power plant unit management program further implements the following operations:

taking systems, structures and equipment in the power plant structure relation tree as data objects;

and acquiring ID attributes corresponding to the data objects, acquiring association information among the ID attributes, and determining the hierarchical relationship among the data objects according to the association information.

Further, when executed by the processor, the nuclear power plant unit management program further implements the following operations:

configuring corresponding node types and node numbers for the data objects according to the hierarchical relationship and a preset node configuration rule;

and inquiring and updating the nuclear power plant unit according to the configured data object.

Further, when executed by the processor, the nuclear power plant unit management program further implements the following operations:

acquiring data nodes of the configured data objects, and inquiring equipment information, document data and work order information under the data nodes;

generating an inquiry report according to the equipment information, the document data and the work order information, and feeding back the inquiry report;

authenticating the operation authority of the nuclear power plant group, and obtaining the current operation type after the authentication is passed;

and updating the nuclear power plant unit according to the current operation type.

Further, when executed by the processor, the nuclear power plant unit management program further implements the following operations:

when the current operation type is increased, checking the content field type and length of the current increased content, and inputting the current increased content after repeated checking and passing;

when the current operation type is modification, checking the modification field type and length of the current modification content, and judging whether the current modification content affects the hierarchical relationship after repeated checking and passing;

when the current modification content does not influence the hierarchical relationship, inputting the current modification content;

and when the current operation type is deletion, judging whether the current deletion content affects the hierarchical relationship, and when the current deletion content does not affect the hierarchical relationship, allowing the current deletion content to be deleted.

Further, when executed by the processor, the nuclear power plant unit management program further implements the following operations:

detecting the radiation value of a radiation area in real time, matching the radiation value with a preset radiation range, and obtaining a matching result;

and dividing the radiation area into a overhaul radiation area and a daily radiation area according to the matching result.

According to the scheme, the power plant structure relation tree corresponding to the nuclear power plant unit data is obtained; determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree; performing node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object; the method can support any number of node objects, supports the self-defined node types of the nuclear power plant, supports the personalized management requirements of the nuclear power plant in field level configuration, supports the definition of level relations of the nuclear power plant in the configuration types, determines whether strict level control is carried out or not according to the personalized configuration of the nuclear power plant, guarantees the data quality, prevents the risks of the production flow, can visually carry out association inquiry of nuclear power plant units, guarantees the timeliness and the accuracy of data model relation checking and business risk checking, and improves the safety and the stability of the production management of the nuclear power plant.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system 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 system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A nuclear power plant unit management method is characterized by comprising the following steps:

acquiring a power plant structure relation tree corresponding to nuclear power plant unit data;

determining all data objects and the hierarchical relationship among the data objects according to the power plant structure relationship tree;

and carrying out node type configuration on each data object according to the hierarchical relationship, and managing the nuclear power plant unit according to the configured data object.

2. The nuclear power plant unit management method of claim 1, wherein the obtaining of the plant structure relationship tree corresponding to the nuclear power plant unit data comprises:

obtaining nuclear power plant unit data, and obtaining the information of the affiliated power plant and unit from the nuclear power plant unit data;

and searching a power plant structure relation tree corresponding to the information of the power plant and the unit in a preset database, wherein the power plant structure relation tree reflects the corresponding relation among systems, structures and equipment.

3. The nuclear power plant unit management method of claim 1, wherein the determining of all data objects and the hierarchical relationship between the data objects according to the plant structure relationship tree comprises:

taking systems, structures and equipment in the power plant structure relation tree as data objects;

and acquiring ID attributes corresponding to the data objects, acquiring association information among the ID attributes, and determining the hierarchical relationship among the data objects according to the association information.

4. The nuclear power plant unit management method according to claim 1, wherein the node type configuration of each data object according to the hierarchical relationship and the management of the nuclear power plant unit according to the configured data object include:

configuring corresponding node types and node numbers for the data objects according to the hierarchical relationship and a preset node configuration rule;

and inquiring and updating the nuclear power plant unit according to the configured data object.

5. The nuclear power plant unit management method of claim 4, wherein the querying and updating the nuclear power plant unit according to the configured data object comprises:

acquiring data nodes of the configured data objects, and inquiring equipment information, document data and work order information under the data nodes;

generating an inquiry report according to the equipment information, the document data and the work order information, and feeding back the inquiry report;

authenticating the operation authority of the nuclear power plant group, and obtaining the current operation type after the authentication is passed;

and updating the nuclear power plant unit according to the current operation type.

6. The nuclear power plant unit management method of claim 5, wherein the performing an update operation on the nuclear power plant unit according to the current operation type includes:

when the current operation type is increased, checking the content field type and length of the current increased content, and inputting the current increased content after repeated checking and passing;

when the current operation type is modification, checking the modification field type and length of the current modification content, and judging whether the current modification content affects the hierarchical relationship after repeated checking and passing;

when the current modification content does not influence the hierarchical relationship, inputting the current modification content;

and when the current operation type is deletion, judging whether the current deletion content affects the hierarchical relationship, and when the current deletion content does not affect the hierarchical relationship, allowing the current deletion content to be deleted.

7. The nuclear power plant unit management method according to any one of claims 1 to 6, wherein after the node type configuration is performed on each data object according to the hierarchical relationship and the nuclear power plant unit is managed according to the configured data object, the nuclear power plant unit management method further comprises:

detecting the radiation value of a radiation area in real time, matching the radiation value with a preset radiation range, and obtaining a matching result;

and dividing the radiation area into a overhaul radiation area and a daily radiation area according to the matching result.

8. A nuclear power plant unit management device, characterized in that it includes:

the system comprises an acquisition module, a storage module and a control module, wherein the acquisition module is used for acquiring a power plant structure relation tree corresponding to nuclear power plant unit data;

the hierarchical relation determining module is used for determining all data objects and the hierarchical relation among the data objects according to the power plant structure relation tree;

and the management module is used for configuring the node type of each data object according to the hierarchical relationship and managing the nuclear power plant unit according to the configured data objects.

9. A nuclear power plant unit management apparatus, comprising: a memory, a processor and a nuclear plant unit management program stored on the memory and operable on the processor, the nuclear plant unit management program configured to implement the steps of the nuclear plant unit management method of any of claims 1 to 7.

10. A storage medium, characterized in that the storage medium has stored thereon a nuclear power plant unit management program which, when executed by a processor, implements the steps of a nuclear power plant unit management method according to any one of claims 1 to 7.

Images