CN110705036A - Nuclear power design task management system, method and storage medium - Google Patents

Abstract

The invention discloses a nuclear power design task management system, a method and a storage medium, which relate to the field of computer software, and the system comprises: the system comprises a flow chart establishing module for determining the content of each link of a design task, analyzing the logical relationship among the links, dividing the design task into nodes, associating the specific task of each link with the corresponding node, establishing a logic flow chart of all node design, a control module for acquiring request information, acquiring related design task information from a nuclear power system database module according to the flow and the node name, and controlling the completion condition of all design tasks or a detailed list of the design tasks associated with the nodes according to the request information. The invention solves the defects that the task logic can not be embodied, the design progress display is not visual enough, and the management experience is difficult to accumulate and reuse in the current nuclear power design task form management, so that the design process and progress are clearer and clearer, and meanwhile, the invention provides reference for the design process of other nuclear power projects.

Description

Nuclear power design task management system, method and storage medium

Technical Field

The invention relates to the field of computer software, in particular to a nuclear power design task management system, a method and a storage medium.

Background

Design task management is crucial as a source of design activities. The traditional nuclear power design task management is developed in an excel form mode, along with the development of informatization, the design task management gradually starts to be electronized, and online management and tracking are realized through a system and a platform. However, the design task management on the line still adopts a table mode. Aiming at the problems existing in the traditional nuclear power design task management mode, with the development of informatization, most of the current nuclear power design tasks are managed and tracked in a form mode in a platform or a system. Project engineers create (single or batch) design tasks, assign them to designers, and the designers receive the tasks and then perform specific design tasks. Project engineers manage design task data through a form, pay attention to the progress of the design task, and list important attributes of the design task in the form. However, in the table, the logical relationship between the design tasks is difficult to be expressed. The concerned progress is refined to a specific design task, the granularity is small, the overall progress control of the project is not facilitated, and the design progress is not visual enough. And in a nuclear power project, the experience of design task management is difficult to accumulate and reuse.

Therefore, a nuclear power design task management system, a method and a storage medium are needed to be designed so as to effectively solve the defects that task logic cannot be embodied, the design progress display is not intuitive enough, management experience is difficult to accumulate and reuse, and the like in the conventional nuclear power design task form management.

Disclosure of Invention

In order to solve the problems in the prior art, embodiments of the present invention provide a nuclear power design task management system, a method, and a storage medium, in which a specific task in each link is associated with each corresponding design node to implement intuitive presentation of task logic in nuclear power design task form management.

The technical scheme provided by the invention for the technical problem is as follows:

in one aspect, an embodiment of the present invention provides a nuclear power design task management system, where the system includes: the flow chart establishing module is connected with the nuclear power system database module and used for determining the specific content of each link of the design tasks, analyzing the logical relationship among the design tasks of each link, dividing the design tasks into nodes, associating each link specific task with each corresponding design node and establishing the design logic flow charts of all the design nodes; and the control module is connected with the flow chart establishing module and used for acquiring the request information, judging the type of the request information, acquiring related design task information from the nuclear power system database module according to the flow and the node name, and controlling the completion condition of all design tasks related to the node or a detailed list of the design tasks to be displayed according to the request information.

Wherein, the flow chart establishing module comprises: the task confirmation module is connected with the nuclear power system database module 300 and used for determining the specific design task content of each link of a total design task according to all the service information in the database and forming a design task library; the logic analysis module is connected with the task confirmation module and used for logically combing and analyzing the logic relation of the specific tasks of each link according to the determined specific design task content of each link and dividing the design tasks into nodes, wherein each design node comprises different design tasks; and the establishing module is connected with the logic analysis module and is used for associating the specific tasks of each link with each corresponding design node and establishing a design logic flow chart of all nodes.

The system takes a design stage, a function item, a design object and work content as a division basis of the design nodes, divides all design tasks into overall structural arrangement design, material design or size calculation according to business conditions, and adopts a front-end technology to draw a design logic flow chart in a webpage after logic combing is completed.

The system comprises a plurality of design logic flow charts, a plurality of design logic flow charts and a plurality of design nodes, wherein each design node value in the same design logic flow chart is a unique keyword and is used for establishing association with a design task; each design logic flow diagram includes a flow diagram name, design nodes, and a sequence of tasks that the design nodes should perform.

The system also comprises a display module connected with the control module; all design tasks of the nuclear power system are stored in the nuclear power system database module; the control module includes: the system comprises an information receiving module, a progress acquiring module, a task acquiring module and a processing module; the information receiving module is used for acquiring the request information, the request information comprises a task progress information designing request and a task list information designing request, the type of the request information is judged, and the requested content is fed back to the corresponding progress acquiring module or the corresponding task acquiring module according to the type of the request information; the progress acquisition module is connected with the information receiving module, acquires all design task state information related to the design nodes according to request content transmitted by the information receiving module, wherein the request content comprises node progress conditions, flow chart names and node values, and marks the nodes of the design logic flow chart according to the design task state information, and the node task states comprise completed, working and to-be-started states; the task obtaining module is connected with the information receiving module, and is used for obtaining all design tasks and all attributes thereof associated with the node according to the request content transmitted by the information receiving module, wherein the request content comprises a node task list request, a flow chart name and a node value, and displaying the design tasks and all attributes thereof in a form; the processing module is respectively connected with the progress acquisition module and the task acquisition module and is used for receiving task request information of the progress acquisition module and the task acquisition module and calling a design task associated with the node from the nuclear power system database module; all design tasks with the same flow and node as the transmitted information in the nuclear power system design task library are searched out through the flow name and the node name, and different information is fed back to the display module.

Wherein the display module comprises: the information sending module is connected with the information receiving module, and the image display module is connected with the processing module; the information sending module is used for feeding back different request information to the information receiving module according to a user request; the image display module is used for feeding back different information according to the upstream module, feeding back progress information for display if the upstream module is a progress acquisition module, and feeding back task list information for display if the upstream module is a task acquisition module.

On the other hand, the embodiment of the invention provides a nuclear power design task management method, which comprises the following steps: determining the specific content of each link of the design task, analyzing the logical relationship among the design tasks of each link, dividing the design tasks into nodes, associating each link specific task with each corresponding design node, and establishing a design logic flow chart of all the design nodes; acquiring request information of a design logic flow chart, judging the type of the request information, acquiring related design task information according to the flow and the node name of the established design logic flow chart, and displaying the completion condition of all design tasks related to the node or a detailed list of the design tasks according to the request information control.

The method specifically comprises the following steps of determining specific contents of each link of a design task, analyzing a logical relationship among the design tasks of each link, dividing the design tasks into nodes, associating each specific task of each link with each corresponding design node, and establishing a design logic flow chart of all the design nodes: determining specific design task contents of all links of a total design task according to all business information in the database, and forming a design task library; logic combing and analyzing the logic relation of each link specific task according to the determined specific design task content of each link, and performing node division on the design tasks, wherein each design node comprises different design tasks; and associating the specific tasks of each link with each corresponding design node, and establishing a design logic flow chart of all nodes.

The acquiring request information of the design logic flow chart, judging the type of the request information, acquiring related design task information according to the established flow and node name of the design logic flow chart, and controlling the completion condition of all design tasks related to the node or a detailed list of the design tasks to be displayed according to the request information specifically comprises the following steps: acquiring the request information, wherein the request information comprises a task progress information designing request and a task list information designing request, judging the type of the request information, and feeding back different request contents according to the type of the request information; according to the transmitted request content, the request content comprises a node progress condition, a flow chart name and a node value, acquiring all design task state information related to a design node, and marking the design logic flow chart node according to the design task state information, wherein the node task state comprises a completed state, a working state and a state to be started; or: according to the transmitted request content, the request content comprises a node task list request, a flow chart name and a node value, all design tasks and all attributes thereof associated with the node are obtained and displayed in a form; receiving different task request information, and calling a design task associated with the node; and searching all design tasks with the same flow and node as the transmitted information in a nuclear power system design task library through the flow name and the node name, and feeding back different information to display.

Dividing all design tasks into overall structural arrangement design, material design and/or size calculation according to the division basis of design stages, function items, design objects and work contents, and drawing a design logic flow chart in a webpage by adopting a front-end technology after logic combing is completed; and for the same design logic flow chart, each design node value is a unique key word and is used for establishing association with a design task.

In a third aspect of the present invention, a computer-readable storage medium is provided, in which a computer program is stored, which, when executed by a processor CPU, causes the processor CPU to perform the steps of: determining specific contents of each link of a design task from a nuclear power database, analyzing a logical relation among the design tasks of each link, dividing the design tasks into nodes, associating the specific tasks of each link with each corresponding design node, and establishing a design logic flow chart of all the design nodes; after a design logic flow chart is established, a CPU acquires request information, judges the type of the request information, acquires related design task information from a nuclear power system database according to the flow and the node name, and displays the completion condition of all design tasks related to the node or a detailed list of the design tasks according to the request information control.

The technical scheme provided by the embodiment of the invention has the following beneficial effects:

the nuclear power design task management system, method and storage medium provided by the embodiment of the invention analyze the logical relationship between design tasks of all links by determining the specific content of all links of the design tasks, perform node division on the design tasks, associate the specific tasks of all links with each corresponding design node, and establish the design logic flow chart of all the design nodes. After a design logic flow chart is established, request information is obtained, related design task information is obtained according to the flow and the node name in the request information, and the completion conditions of all design tasks related to the nodes or a detailed list of the design tasks are displayed according to request content feedback information. The invention manages the design task in a flow chart mode, so that the design process and progress are clearer and more definite. Meanwhile, reference is provided for the design process of other nuclear power projects, and experience accumulation and sharing are achieved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a general block diagram of a system for managing tasks in a nuclear power design according to a first embodiment of the present invention;

FIG. 2 is a system schematic diagram of a nuclear power design task management system according to a first embodiment of the present invention;

fig. 3 is a progress information display diagram of a nuclear power design task management system according to an embodiment of the present invention;

fig. 4 is a task list information display diagram of a nuclear power design task management system according to a second embodiment of the present invention;

FIG. 5 is a general flowchart of a nuclear power design task management method according to a second embodiment of the present invention;

FIG. 6 is a detailed flowchart of a nuclear power design task management method according to a second embodiment of the present invention;

fig. 7 is a schematic node division diagram of a nuclear power design task management method according to a second embodiment of the present invention.

Detailed Description

In order to solve the technical problems of incapability of embodying task logic, insufficient intuitive display of design progress, difficulty in accumulating management experience, difficulty in multiplexing and the like in the prior art, the invention aims to provide a nuclear power design task management system, method and medium, and the core idea of the system is as follows: designing a flow chart establishing and feedback mechanism, determining an integral design task from a nuclear power system database, determining specific contents of each link of the design task, analyzing the logical relationship of the contents of each link, dividing the integral design task into nodes, associating each link of the design task with the nodes, and establishing a design logical flow chart of all the nodes by taking the nodes as unique keywords, wherein the flow chart is displayed on a webpage. After the flow chart is established, an operator clicks the flow chart on a webpage to generate corresponding request information, the system acquires progress information or task list information of a corresponding design task from a nuclear power system database according to the request information, feeds the acquired information back to the front end, and displays the information to the operator. The invention manages the design task in a flow chart mode, so that the design process and progress are clearer and more definite. Meanwhile, reference is provided for the design process of other nuclear power projects, and experience accumulation and sharing are achieved.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example one

An embodiment of the present invention provides a nuclear power design task management system, and referring to fig. 1, the system includes:

the flow chart establishing module 100 is connected with the nuclear power system database module 300 and is used for determining the specific content of each link of the design tasks, analyzing the logical relationship among the design tasks of each link, dividing the design tasks into nodes, associating each link specific task with each corresponding design node and establishing the design logic flow charts of all the design nodes;

and the control module 200 is connected to the flowchart establishing module 100, and is configured to obtain the request information, determine what type of request information is, obtain related design task information from the nuclear power system database module 300 according to the process and the node name, and control, according to the request information, to display the completion conditions of all design tasks or the detailed design task list associated with the display node.

In this embodiment, referring to fig. 1, a flow chart establishing module 100 is connected to a nuclear power system database module 300, the nuclear power database module 300 stores specific contents of all design tasks, the flow chart establishing module 100 determines specific contents of each link of an overall design task from the nuclear power database module 300, then analyzes logical relations among the design tasks of each link, then performs node division on the overall design task, associates each link specific task with each corresponding design node, identifies each link of the design task by a node, and finally establishes a design logic flow chart of all design nodes according to the analyzed logical relations; the control module 200 is connected with the flow chart establishing module 100, the control module 200 acquires request information from the flow chart establishing module 100, judges the type of the request information, acquires related design task information from the nuclear power system database module 300 according to the flow and the node name in the request information, and displays the completion conditions of all design tasks related to the node or a detailed design task list according to the request information. The embodiment designs a system for firstly establishing the flow chart and then displaying the detailed information of each node of the flow chart according to the request information, so that the design process and progress are clearer and more definite.

Referring to fig. 2, the flow chart building block 100 includes:

the task confirmation module 101 is connected with the nuclear power system database module 300 and used for determining specific design task contents of all links of a total design task according to all business information in the database and forming a design task library;

a logic analysis module 102, connected to the task confirmation module 101, for performing logic combing and analysis on the logic relationship of each link specific task according to the determined specific design task content of each link, and performing node division on the design task, where each design node includes different design tasks;

and the establishing module 103 is connected with the logic analyzing module 102 and is used for associating the specific tasks of each link with each corresponding design node and establishing a design logic flow chart of all nodes.

In this embodiment, referring to fig. 2, all design tasks and specific contents thereof are stored in the nuclear power system database module 300, the task confirmation module 101 determines an overall design task from the nuclear power system database module 300 according to service requirements, where the design task includes the specific task contents of each link, and then the logic analysis module 102 obtains the specific contents of each link of the design task from the task confirmation module 101, and performs logic analysis on the specific contents of each link to obtain a logic relationship, that is, a completion sequence of each link. Next, the logic analysis module 102 performs node division on the whole design task, that is, encapsulates the specific content of the design task, uses the node as a unique identifier with a uniform format, and each node includes different design tasks. Then, the establishing module 103 obtains all the divided nodes and the logical relationship among the links from the logic analyzing module, associates the specific content of each link with each corresponding node, gives the logical relationship among the nodes through an association means, and finally the establishing module 103 establishes the design logic flow chart of all the nodes according to the relationship. . According to the embodiment, the specific tasks are packaged by the nodes through the division of the nodes, and the objects are the nodes with the uniform format in the subsequent operation, so that the operation is simple and rapid, and the system operation efficiency is higher.

The system takes a design stage, a function item, a design object and work content as a division basis of the design node, divides all design tasks into overall structural arrangement design, material design or size calculation according to business conditions, and adopts a front-end technology to draw a design logic flow chart in a webpage after logic combing is completed.

In this embodiment, the logic analysis module 102 divides all design tasks into overall structural layout design, material design or size calculation according to the business situation according to the division basis of the design nodes according to the design phase, the function items, the design object and the work content, and draws a design logic flow chart in a webpage by adopting a front-end technology after logical combing is performed in each link, wherein the front-end technology includes Visio, Go JS and the like. The front-end technology is simple in drawing flow chart learning and easy to operate. And the flow chart drawn on the webpage can be displayed on any terminal in the network, and the accessibility is strong.

In the system, for the same design logic flow chart, each design node value is a unique keyword and is used for establishing association with a design task; each design logic flow diagram includes a flow diagram name, design nodes, and a sequence of tasks that the design nodes should perform.

In this embodiment, in the same design logic flowchart, a node value is used as a unique identifier, i.e., a unique key, of each link, and a node is associated with a design task. Each design logic flow diagram includes the following objects: the name of the flow chart, the design nodes and the sequence of tasks to be completed by the design nodes.

The system further comprises a display module connected to the control module 200; the nuclear power system database module 300 stores all design tasks of a nuclear power system; the control module 200 includes: the system comprises an information receiving module 201, a progress acquiring module 202, a task acquiring module 203 and a processing module 204;

the information receiving module 201 is configured to obtain the request information, where the request information includes a task progress information design request and a task list information design request, determine the type of the request information, and feed back the content of the request to the corresponding progress obtaining module 202 or task obtaining module 203 according to the type of the request information;

the progress obtaining module 202, connected to the information receiving module 201, obtains all design task state information associated with the design nodes according to the request content transmitted by the information receiving module 201, where the request content includes node progress, flow chart name and node value, and labels the design logic flow chart nodes according to the design task state information, where the node task state includes completed, in-work and to-be-started states;

the task obtaining module 203 is connected to the information receiving module 201, and obtains all design tasks and attributes thereof associated with the node according to the request content transmitted by the information receiving module 201, wherein the request content includes a node task list request, a flow chart name and a node value, and the design tasks and the attributes are displayed in a form;

the processing module 204 is respectively connected to the progress acquisition module 202 and the task acquisition module 203, and is configured to receive task request information of the progress acquisition module 202 and the task acquisition module 203 and retrieve a design task associated with the node from the nuclear power system database module 300; all design tasks with the same flow and node as the transmitted information in the nuclear power system database module 300 are searched out through the flow name and the node name, and different information is fed back to the display module 400.

In this embodiment, referring to fig. 2, the information receiving module 201 obtains request information from the flowchart establishing module 100, where the request information types include a design task progress information request and a task list information request, and then the information receiving module 201 determines the type of the request information and feeds back the requested content to the corresponding progress obtaining module 202 or task obtaining module 203 according to the type of the request information. When the request information type is a design task progress information request, the progress acquisition module 202 receives request content, the request content includes node progress condition, flow chart name and node value, the progress acquisition module 202 transmits the request content to the processing module 204, the processing module 204 receives the request content, searches out all design tasks with the same flow and node as the transmitted information in the nuclear power system database module 300 according to the flow name and node name in the request content, and feeds back the design tasks to the progress acquisition module 202, the progress acquisition module 202 labels the design logic flow chart nodes according to the design task state information, the node task states include completed, in-work and to-be-started states, referring to fig. 3, the node task states can be distinguished by using color labels, wherein, preliminary design input review, design requirement confirmation, overall structure layout design, and the like, The task status of the size calculation is completed and the corresponding node is marked "G", i.e. green. The task states of the irradiation supervision design, the key part mechanical analysis, the RPV sealing performance analysis (C), the inlet connecting pipe (C), the lower end enclosure (C) and the outlet connecting pipe (C) are in work, and the corresponding node is marked as 'r', namely red. The mission status of the cap assembly and vessel flange (C) is not activated and the corresponding node is labeled "b", i.e., blue. When the task state is not applicable, the corresponding node will be labeled "g", i.e., gray. The color marking of the nodes in the flow chart can intuitively display the completion state of the task corresponding to each node; then, the progress acquiring module 202 transmits the processed information to the processing module 204, and the processing module 204 feeds the design task progress information back to the displaying module 400 for displaying; when the request information type is a task list information request, the task obtaining module 203 receives request contents, wherein the request contents comprise a node task list request, a flow chart name and a node value, the task obtaining module 203 transmits the request contents to the processing module 204, the processing module 204 receives the request contents, searches all design tasks with the same flow and node as the transmitted information in the nuclear power system database module 300 according to the flow name and the node name in the request contents, and feeds back the design tasks to the task obtaining module 203, referring to fig. 4, the task obtaining module 203 obtains all design tasks and various attributes thereof associated with the node and forms a form, and the form comprises a task name, a task decomposition, a task progress, an internal code, a project, equipment, a flow node, a file name, a version, a task state, a responsible person and file information, The modification time, the planned publication time and the actual publication time, and a total of 15 form items can show the attributes of each task in detail. Then, the task obtaining module 203 transmits the processed information to the processing module 204, and the processing module 204 feeds the task list information back to the displaying module 400 for displaying. According to the embodiment, the function of displaying the information required by the user according to the user request based on the established flow chart is realized, and the detailed information of the flow chart can be intuitively and conveniently displayed.

The display module 400 includes: an information sending module 401 connected with the information receiving module 201, and an image display module 402 connected with the processing module 204; the information sending module 401 is configured to feed back different request information to the information receiving module 201 according to a user request; the image display module 402 is configured to feed back different information according to an upstream module, feed back progress information for display if the upstream module is the progress acquisition module 202, and feed back task list information for display if the upstream module is the task acquisition module 203.

In the present embodiment, referring to fig. 2, the presentation module 400 includes an information transmission module 401 and an image display module 402. When an operator needs to check detailed information of the flow chart, the operator clicks the flow chart drawn at the front end of the webpage, the information sending module 401 obtains a corresponding instruction, and sends request information to the information receiving module 201 for instructing the acquisition of the display content; the display module 400 further includes an image display module 402, which may be a liquid crystal display or the like, for providing a human-computer interaction interface. If the information is sent by the upstream progress acquisition module 202, the feedback progress information is displayed, and if the information is sent by the upstream task acquisition module 203, the feedback task list information is displayed, real-time operation feedback is provided for engineers, so that the engineers can check the detailed content of the flow chart at any time, the engineering information feedback follows the actual progress of the engineering task, and the design process and progress are clearer and more definite. Meanwhile, reference is provided for the design process of other nuclear power projects, and experience accumulation and sharing are achieved.

Example two

The invention provides a nuclear power design task management method, and referring to fig. 5, the method comprises the following steps:

determining the specific content of each link of the design task, analyzing the logical relationship among the design tasks of each link, dividing the design tasks into nodes, associating each link specific task with each corresponding design node, and establishing a design logic flow chart of all the design nodes;

acquiring request information of a design logic flow chart, judging the type of the request information, acquiring related design task information according to the flow and the node name of the established design logic flow chart, and displaying the completion condition of all design tasks related to the node or a detailed list of the design tasks according to the request information control.

In this embodiment, reference is made to fig. 5 in conjunction with fig. 1. Firstly, designing an overall design task, determining the specific content of each link of the design task, and analyzing the logical relationship between the design tasks of each link. Then node division is carried out on the whole design task, the specific tasks of all links are associated with each corresponding design node, and a design logic flow chart of all the design nodes is established; and then acquiring request information aiming at the established design logic flow chart, judging the type of the request information, and controlling the completion condition of all design tasks related to the nodes or a detailed design task list to be displayed according to the request information. The embodiment designs a method for establishing the flow chart and then displaying the detailed information of each node of the flow chart according to the user operation, so that the design process and progress are clearer and more definite.

The method comprises the following steps of determining specific contents of each link of a design task, analyzing a logic relation among the design tasks of each link, dividing the design tasks into nodes, associating each specific task of each link with each corresponding design node, and establishing a design logic flow chart of all the design nodes, wherein the steps comprise the following steps:

determining specific design task contents of all links of a total design task according to all business information in the database, and forming a design task library;

logic combing and analyzing the logic relation of each link specific task according to the determined specific design task content of each link, and performing node division on the design tasks, wherein each design node comprises different design tasks;

and associating the specific tasks of each link with each corresponding design node, and establishing a design logic flow chart of all nodes.

In this embodiment, referring to fig. 6, first, specific design task content of each link of a total design task is determined from all business information in a database according to business requirements, and then, according to the determined specific design task content of each link, logical relationship analysis is performed on the specific tasks of each link, that is, the execution sequence relationship of the specific tasks of each link, so as to obtain the logical relationship between each link. And then, carrying out node division on the design task, namely packaging the specific content of the design task, using the nodes as unique identifiers with uniform formats, wherein each design node comprises different design tasks. Then, the specific tasks of each link are associated with each corresponding design node, and the logical relationship between the nodes is given through the association means. And finally, establishing a design logic flow chart of all the nodes according to all the existing nodes and the obtained logic relation. According to the embodiment, the specific tasks are packaged by the nodes through the division of the nodes, and the objects are the nodes with the uniform format in the subsequent operation, so that the operation is simple and rapid, and the system operation efficiency is higher.

The acquiring request information of the design logic flow chart, judging the type of the request information, acquiring related design task information according to the established flow and node name of the design logic flow chart, and controlling the completion condition of all design tasks related to the nodes or the detailed list of the design tasks to be displayed according to the request information specifically comprises the following steps:

acquiring the request information, wherein the request information comprises a task progress information designing request and a task list information designing request, judging the type of the request information, and feeding back different request contents according to the type of the request information;

according to the transmitted request content, the request content comprises a node progress condition, a flow chart name and a node value, acquiring all design task state information related to a design node, and marking the design logic flow chart node according to the design task state information, wherein the node task state comprises a completed state, a working state and a state to be started;

or: according to the transmitted request content, the request content comprises a node task list request, a flow chart name and a node value, all design tasks and all attributes thereof associated with the node are obtained and displayed in a form;

receiving different task request information, and calling a design task associated with the node; and searching all design tasks with the same flow and node as the transmitted information in a nuclear power system design task library through the flow name and the node name, and feeding back different information to display.

In this embodiment, referring to fig. 6, first, request information of the design logic flow chart is obtained, and the request information is divided into two types, namely a design task progress information request and a task list information request. Then, the type of the request information of the design logic flow chart is judged, and different request contents are fed back according to the type of the request information. And then, according to the flow chart and the node name in the request information of the design logic flow chart and the type of the request information, acquiring all design task information related to the node from a design task library, if the type of the request information is the design task progress request information, acquiring the progress information of the corresponding node in the flow chart, if the type of the request information is the task list request information, acquiring the task list information of the corresponding node in the flow chart, and feeding back the design task information according to the request content. And then controlling the completion conditions of all design tasks related to the nodes or the detailed design task list to be displayed according to the request information. Specifically, firstly, processing design task information, marking nodes of a design logic flow chart according to the obtained progress information when the request information is a progress information request, and transmitting the processed information to display the completion condition of the design task; and when the request information is a task list information request, forming all design tasks and all attributes thereof associated with the obtained nodes into a form, and transmitting the processed information to display a detailed design task list.

Dividing the design nodes according to the division basis which is the design stage, the function item, the design object and the work content, dividing all design tasks into overall structural arrangement design, material design and/or size calculation, and drawing a design logic flow chart in a webpage by adopting a front-end technology after logic combing is finished; and for the same design logic flow chart, each design node value is a unique key word and is used for establishing association with a design task.

In this embodiment, referring to fig. 7, the division basis of the design nodes is to divide all design tasks into overall structural layout design, material design and/or size calculation according to the design phase, the function items, the design objects and the work content as the division basis, and the preliminary design phase of the pressure vessel is taken as an example and specifically divided into a first stage: primary design review, second level: preliminary design confirmation, third stage: overall structure layout design, material design, size calculation, irradiation supervision design, fourth stage: the method has the advantages that the logic and execution sequence of design tasks can be visually displayed through the dividing mode, engineers can obtain detailed information of a flow chart, and work efficiency is improved.

The present invention provides a computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to perform the steps of: determining specific contents of each link of a design task from a nuclear power database, analyzing a logical relation among the design tasks of each link, dividing the design tasks into nodes, associating the specific tasks of each link with each corresponding design node, and establishing a design logic flow chart of all the design nodes; after a design logic flow chart is established, a CPU acquires request information, judges the type of the request information, acquires related design task information from a nuclear power system database according to the flow and the node name, and displays the completion condition of all design tasks related to the node or a detailed list of the design tasks according to the request information control.

In the computer-readable storage medium, a design logic flow chart of all nodes is established for a design task by a CPU, then the CPU obtains requested detailed information from a nuclear power system database according to the requested information, and controls a display module to display by marking the nodes or forming a detailed design task list. Compared with the form management method in the prior art, by adopting the flow chart management method provided by the embodiment of the invention, the logic relationship and progress of the design task can be visually displayed and the design management experience of the nuclear power project can be precipitated by establishing the flow chart and displaying the detailed information of the flow chart in real time according to the request, thereby laying a foundation for popularization and reuse on other nuclear power projects, particularly nuclear power projects of the same technical route.

It should be noted that the nuclear power design task management system, the method and the storage medium belong to the same inventive concept. It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM). 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.

In summary, the method, the system and the storage medium for managing the nuclear power design tasks based on the flow chart mode realize dynamic association of the design tasks, normalized management of design data, visual display of the logical relationship and progress of the design tasks and precipitation of the design management experience of the nuclear power project, lay a foundation for popularization and reuse on other nuclear power projects especially on the same technical route, and greatly improve the management efficiency of the engineering project.

It should be noted that the progress display mode, the task list display mode, and the flowchart display mode in the design logic flowchart adopted in the embodiment of the present invention are only examples, and different modes need to be set according to specific application scenarios.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (11)

1. A nuclear power design task management system is characterized by comprising:

the flow chart establishing module (100) is connected with the nuclear power system database module (300) and is used for determining the specific content of each link of the design tasks, analyzing the logical relationship among the design tasks of each link, dividing the design tasks into nodes, associating each link specific task with each corresponding design node and establishing the design logical flow charts of all the design nodes;

and the control module (200) is connected with the flow chart establishing module (100) and is used for acquiring the request information, judging the type of the request information, acquiring related design task information from the nuclear power system database module (300) according to the flow and the node name, and controlling the completion conditions of all design tasks related to the node or a detailed design task list to be displayed according to the request information.

2. The system of claim 1, wherein the flow chart establishing module (100) comprises:

the task confirmation module (101) is connected with the nuclear power system database module (300) and used for determining the specific design task content of each link of a total design task according to all the service information in the database and forming a design task library;

the logic analysis module (102) is connected with the task confirmation module (101) and is used for logically combing and analyzing the logic relation of the specific tasks of each link according to the determined specific design task content of each link and dividing the design tasks into nodes, wherein each design node comprises different design tasks;

and the establishing module (103) is connected with the logic analysis module (102) and is used for associating the specific tasks of all links with each corresponding design node and establishing a design logic flow chart of all nodes.

3. The system of claim 2, wherein all design tasks are divided into general structural layout design, material design or size calculation according to the business situation, according to the division basis of the design stage, the function item, the design object and the work content as the design node, and after the logic combing is completed, a design logic flow chart is drawn in the webpage by adopting a front-end technology.

4. The system of claim 2, wherein each design node value is a unique key for establishing an association with a design task within the same design logic flow diagram; each design logic flow diagram includes a flow diagram name, design nodes, and a sequence of tasks that the design nodes should perform.

5. The system of claim 1, further comprising a display module connected to the control module (200); all design tasks of the nuclear power system are stored in the nuclear power system database module (300);

the control module (200) comprises: the system comprises an information receiving module (201), a progress acquiring module (202), a task acquiring module (203) and a processing module (204);

the information receiving module (201) is used for acquiring the request information, the request information comprises a task progress information designing request and a task list information designing request, the type of the request information is judged, and the requested content is fed back to the corresponding progress acquiring module (202) or the corresponding task acquiring module (203) according to the type of the request information;

the progress acquisition module (202) is connected with the information receiving module (201), acquires all design task state information associated with the design nodes according to request content transmitted by the information receiving module (201), wherein the request content comprises node progress conditions, flow chart names and node values, and marks the nodes of the design logic flow chart according to the design task state information, and the node task states comprise completed, in-work and to-be-started states;

the task obtaining module (203) is connected with the information receiving module (201), and is used for obtaining all design tasks and all attributes thereof associated with the node according to the request content transmitted by the information receiving module (201), wherein the request content comprises a node task list request, a flow chart name and a node value, and displaying the design tasks and all attributes thereof in a form;

the processing module (204) is respectively connected with the progress acquisition module (202) and the task acquisition module (203), and is used for receiving task request information of the progress acquisition module (202) and the task acquisition module (203) and calling a design task associated with the node from the nuclear power system database module (300); all design tasks with the same flow and node as the transmitted information in the nuclear power system design task library are searched out through the flow name and the node name, and different information is fed back to the display module (400).

6. The system of claim 5,

the display module (400) comprises: the information sending module (401) is connected with the information receiving module (201), and the image display module (402) is connected with the processing module (204);

the information sending module (401) is used for feeding back different request information to the information receiving module (201) according to a user request;

the image display module (402) is used for feeding back different information according to the upstream module, feeding back progress information for display if the upstream module is the progress acquisition module (202), and feeding back task list information for display if the upstream module is the task acquisition module (203).

7. A nuclear power design task management method is characterized by comprising the following steps:

determining the specific content of each link of the design task, analyzing the logical relationship among the design tasks of each link, dividing the design tasks into nodes, associating each link specific task with each corresponding design node, and establishing a design logic flow chart of all the design nodes;

acquiring request information of a design logic flow chart, judging the type of the request information, acquiring related design task information according to the flow and the node name of the established design logic flow chart, and displaying the completion condition of all design tasks related to the node or a detailed list of the design tasks according to the request information control.

8. The method according to claim 7, wherein the determining of the specific content of each link of the design task, analyzing the logical relationship between the design tasks of each link, performing node division on the design tasks, associating each link specific task with each corresponding design node, and establishing the design logic flow diagrams of all design nodes specifically comprises the following processing:

determining specific design task contents of all links of a total design task according to all business information in the database, and forming a design task library;

logic combing and analyzing the logic relation of each link specific task according to the determined specific design task content of each link, and performing node division on the design tasks, wherein each design node comprises different design tasks;

and associating the specific tasks of each link with each corresponding design node, and establishing a design logic flow chart of all nodes.

9. The method according to claim 8, wherein the obtaining request information of the design logic flow chart, determining what type of request information is, obtaining related design task information according to the established flow and node name of the design logic flow chart, and controlling the completion of all design tasks associated with the node or the detailed design task list to be displayed according to the request information specifically comprises the following processing:

acquiring the request information, wherein the request information comprises a task progress information designing request and a task list information designing request, judging the type of the request information, and feeding back different request contents according to the type of the request information;

according to the transmitted request content, the request content comprises a node progress condition, a flow chart name and a node value, acquiring all design task state information related to a design node, and marking the design logic flow chart node according to the design task state information, wherein the node task state comprises a completed state, a working state and a state to be started;

or: according to the transmitted request content, the request content comprises a node task list request, a flow chart name and a node value, all design tasks and all attributes thereof associated with the node are obtained and displayed in a form;

receiving different task request information, and calling a design task associated with the node; and searching all design tasks with the same flow and node as the transmitted information in a nuclear power system design task library through the flow name and the node name, and feeding back different information to display.

10. The method according to claim 9, wherein the dividing basis of the design nodes is that all design tasks are divided into overall structural layout design, material design and/or size calculation according to design stages, function items, design objects and work contents, and after the logic combing is completed, a design logic flow chart is drawn in a webpage by adopting a front-end technology; and for the same design logic flow chart, each design node value is a unique key word and is used for establishing association with a design task.

11. A computer-readable storage medium, characterized in that a computer program is stored which, when being executed by a processor CPU, carries out the steps of the method according to any one of claims 7-10.

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