CN108171346B - Method and device for processing instrument control maintenance data of nuclear power plant and computer equipment - Google Patents

Abstract

The application relates to a method and a device for processing instrument control maintenance data of a nuclear power plant, computer equipment and a storage medium, wherein the method for processing the instrument control maintenance data of the nuclear power plant comprises the following steps: importing work order data corresponding to the work order information from a database according to the work order information; generating a data entry label page corresponding to the work order information according to the work order data corresponding to the work order information; displaying a data entry label page corresponding to the work order information on a maintenance activity data entry interface; and receiving the entered maintenance data through the data entry label page in the maintenance activity data entry interface. The system and the method have the advantages that the generated maintenance data are directly recorded into the maintenance activity data recording platform during the field work of the instrument control equipment maintenance activity, and a large amount of maintenance data do not need to be recorded manually after the field work is finished.

Description

Method and device for processing instrument control maintenance data of nuclear power plant and computer equipment

Technical Field

The invention relates to the field of nuclear power plant instruments, in particular to a method and a device for processing instrument control maintenance data of a nuclear power plant, computer equipment and a storage medium.

Background

The instrument control system is an information nerve and control center of a nuclear power plant and is used for monitoring and controlling main and auxiliary processes of heat energy and electric energy production of the nuclear power plant, and the safety, operability and reliability of the nuclear power plant are maintained in all operation modes including emergency situations so as to ensure the safe, stable and economic operation of the nuclear power plant. In a nuclear power plant, a plurality of instruments and control equipment are arranged, and corresponding maintenance activities including corrective maintenance activities and preventive maintenance activities need to be carried out on the equipment regularly to ensure the stability and the reliability of the equipment.

At present, the maintenance activities of instrument control equipment in the nuclear power field are to print paper check sheets on line according to the functional positions of the equipment or print corresponding program rules according to maintenance contents, when the maintenance activities are performed on site, the instrument control equipment is checked according to the check sheets or the program rules are operated according to steps, and inspection and check results and data are recorded into the paper check sheets and the program rules in time. And after the field work is finished, manually inputting results and data on the paper check list and the paper program specification into a check list database system and a program specification database system to verify and judge the results.

In the traditional technology, in each refueling cycle, after the field work is finished, thousands of check lists and program rules of the nuclear power unit need to be manually input, and the workload of manually inputting data is huge. And the version of the check list and the program specification is periodically updated, the paper file cannot be updated in real time, whether the paper file is the latest version needs to be repeatedly confirmed by manpower, and otherwise, the risk of misjudgment or misadjustment of field equipment exists.

Disclosure of Invention

Based on this, it is necessary to provide a processing method and apparatus, a computer device, and a storage medium for nuclear power plant instrument control maintenance data, aiming at the technical problems of large workload and incapability of updating data in real time caused by manual entry of a check list and a program rule.

A method of processing nuclear power plant instrumentation maintenance data, the method comprising: importing work order data corresponding to the work order information from a database according to the work order information; generating a data entry label page corresponding to the work order information according to the work order data corresponding to the work order information; displaying a data entry label page corresponding to the work order information on a maintenance activity data entry interface; and receiving the entered maintenance data through the data entry label page in the maintenance activity data entry interface.

In one embodiment, the importing the work order data corresponding to the work order information from the database according to the work order information includes: importing the check sheet data corresponding to the work order information from a check sheet database according to the work order information; and/or importing the program procedure data corresponding to the work order information from the program procedure entry database according to the work order information.

In one embodiment, the work order information includes a work order number; the step of displaying the data entry label page corresponding to the work order information on a maintenance activity data entry interface comprises the following steps: the method comprises the steps of receiving an input work order number by obtaining a maintenance activity data entry instruction, and displaying a data entry label page corresponding to the input work order number on a maintenance activity data entry interface.

In one embodiment, the displaying the data entry tab page corresponding to the work order information on the maintenance activity data entry interface includes: and identifying the work order bar code to obtain work order information, obtaining a corresponding data entry label page according to the obtained work order information, and displaying the obtained data entry label page on a maintenance activity data entry interface.

In one embodiment, at least one label is displayed in the maintenance activity data entry interface, each label corresponding to a data entry label page; the method further comprises the following steps: acquiring a label switching instruction through the data maintenance activity entry interface, and switching and displaying a corresponding data entry label page according to the label switching instruction; and detecting whether the maintenance data in the displayed data entry label page is complete or not, and identifying the label corresponding to the data entry label page according to the detection result.

In one embodiment, the method further comprises: analyzing and judging the entered maintenance data, and setting a state identifier corresponding to the instrument control equipment according to an analysis and judgment result, wherein the state identifier comprises a qualified identifier, a degraded identifier and a failed identifier; and uploading the entered maintenance data and the analysis and judgment result to a check list database and/or a program procedure entry database.

In one embodiment, the method further comprises: acquiring a historical data query instruction, and displaying a historical data query interface according to the historical data query instruction; and acquiring historical maintenance data from the check list database and/or the program procedure entry database through the historical data query interface, and displaying the historical maintenance data in the historical data query interface.

A processing device for nuclear power plant instrument control maintenance data comprises: the work order data import module is used for importing work order data corresponding to the work order information from the database according to the work order information; the input label page generating module is used for generating a data input label page corresponding to the work order information according to the work order data corresponding to the work order information; the entry interface display module is used for displaying a data entry label page corresponding to the work order information on a maintenance activity data entry interface; and the maintenance data entry module is used for receiving entered maintenance data through the data entry label page in the maintenance activity data entry interface.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the method of the above embodiments when executing the computer program.

A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of the embodiments described above.

According to the nuclear power plant instrument control maintenance data processing method and device, the computer equipment and the storage medium, the work order data corresponding to the work order information is imported from the database according to the work order information, and then the data entry label page corresponding to the work order information is generated. And then displaying a data entry label page corresponding to the work order information on a maintenance activity data entry interface. Finally, the entered maintenance data is received through a data entry label page in the maintenance activity data entry interface, the fact that the generated maintenance data are directly entered into a terminal when the instrument control equipment maintenance activity works on site is achieved, and after the site work is finished, a large amount of maintenance data do not need to be entered manually. The entered maintenance data are analyzed and judged, the state identification corresponding to the instrument control equipment is set according to the analysis and judgment result, and then the entered maintenance data and the analysis and judgment result are uploaded to a check list database and/or a program rule entry database. The maintenance data and the analysis and judgment results are updated in real time, and the risk of misjudgment or misadjustment of the instrument control equipment is reduced.

Drawings

FIG. 1 is a diagram of an environment in which a method for processing nuclear power plant instrumentation maintenance data is implemented, according to an embodiment;

FIG. 2 is a schematic flow chart diagram illustrating a method for processing nuclear power plant instrumentation maintenance data according to one embodiment;

FIG. 3 is a timing diagram of a method for processing nuclear power plant instrumentation maintenance data according to one embodiment;

FIG. 4 is a schematic diagram of a user login interface of a maintenance activity data entry platform in the method for processing nuclear power plant instrumentation maintenance data, according to an embodiment;

FIG. 5 is a schematic illustration of a function selection interface of a maintenance activity data entry platform in the method for processing nuclear power plant instrumentation maintenance data, according to an embodiment;

FIG. 6 is a schematic diagram of a work order data import interface of a maintenance activity data entry platform in the method for processing nuclear power plant instrumentation maintenance data according to an embodiment;

FIG. 7 is a schematic diagram of a maintenance activity data entry upload interface of a maintenance activity data entry platform in the method for processing nuclear power plant instrumentation maintenance data according to one embodiment;

FIG. 8 is a data entry tab page interface diagram in a maintenance activities data entry interface of the method for processing nuclear power plant instrumentation maintenance data, under an embodiment;

FIG. 9 is a schematic illustration of the calculation and analysis of maintenance data by a maintenance activity data entry platform in a method for processing nuclear power plant instrumentation maintenance data according to one embodiment;

FIG. 10 is a schematic diagram of a maintenance activity data entry platform uploading maintenance data and analyzing results to a nuclear power plant database system in a method for processing nuclear power plant instrumentation maintenance data according to an embodiment;

FIG. 11 is a maintenance activity data entry upload interface diagram in a maintenance activity data entry interface of the method for processing nuclear power plant instrumentation maintenance data, under an embodiment;

FIG. 12 is a timing diagram illustrating a method for processing nuclear power plant instrumentation maintenance data according to another embodiment;

FIG. 13 is a schematic diagram illustrating obtaining work order information via a paper work order file in a method for processing nuclear power plant instrumentation maintenance data, according to an embodiment;

FIG. 14 is a schematic diagram illustrating import of work order data into a maintenance activity data entry platform in a method for processing nuclear power plant instrumentation maintenance data according to an embodiment;

FIG. 15 is a schematic diagram of a work order information reading and calling interface of a maintenance activity data entry platform in the method for processing nuclear power plant instrumentation and maintenance data according to an embodiment;

FIG. 16 is a block diagram of a processing device for nuclear power plant instrumentation maintenance data according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments.

Referring to fig. 1, in one embodiment, the present application provides a system for processing nuclear power plant instrumentation and maintenance data, which includes a terminal 110 and a database system 120, wherein the terminal 110 is in data connection with the database system 120. The terminal 110 may include an intelligent terminal 111 and a data terminal 112, and the intelligent terminal 111 exchanges information with the data terminal 112 through a network. Database system 120 includes a file system 121, an SAP system 122, a checklist database system 123, and a procedural protocol entry database system 124. The file system 121 is provided with a file system database platform calling interface, the SAP system 122 is provided with an SAP work order database calling interface, the check order database system 123 is provided with a check order database calling interface, and the program procedure entry database system 124 is provided with a program procedure data entry database calling interface.

A maintenance activity data entry platform is mounted on terminal 110. The maintenance activity data entry platform is in data connection with the file system 121 through a file system database platform calling interface, in data connection with the SAP system 122 through an SAP worksheet database calling interface, in data connection with the checklist database system 123 through a checklist database calling interface, and in data connection with the procedure entry database system 124 through a procedure data entry database calling interface. The maintenance activity data entry platform can import the check sheet data in the check sheet database system 123 and the program procedure data in the program procedure entry database system 124 to the terminal 110 for local storage according to the work sheet information of the work sheet file.

The user opens the maintenance activity data entry platform on the terminal 110, and records the maintenance data generated by the field maintenance activity on the maintenance activity data entry platform through the maintenance activity data entry platform. And the maintenance activity data entry platform analyzes and judges the recorded maintenance data according to a built-in formula to obtain an analysis and judgment result. And carrying out corresponding state identification on the instrument control equipment according to the analysis and judgment result. The terminal 110 exchanges information with the database system 120 through a terminal interface or a wireless network, and then uploads the maintenance data and the analysis and judgment result to the database system 120 for storage.

It is understood that the terminal 110 may be a smartphone, a mobile terminal, a PC, a tablet, etc. The wireless network and the terminal interface are selectable, and if the wireless network exists, data communication can be carried out in real time in a wireless network mode. However, when the nuclear power generating unit is in a wireless communication disabled area such as a nuclear island, a control area, an electric plant and the like, a terminal interface mode is selected for data communication.

In an embodiment, referring to fig. 2, the present application provides a method for processing nuclear power plant instrument control maintenance data, which specifically includes the following steps:

and S210, importing the work order data corresponding to the work order information from the database according to the work order information.

The work order information refers to unique identification information of the work order file. Work order data refers to data information contained on a work order file. The work order file is an execution file of field maintenance activities performed by nuclear power plant workers. The maintenance activity data entry platform is connected to the database system via a network. And the user imports the work order data corresponding to the work order information from the database system to the maintenance activity data entry platform through the terminal according to the work order information and stores the work order data locally at the terminal. It is to be understood that the work order information may include a work order number, may include a functional location, and may also include a work order barcode. The work order data may include checklist data and may also include procedure data.

And S220, generating a data entry label page corresponding to the work order information according to the work order data corresponding to the work order information.

The data entry tab refers to a page on which a user can directly enter maintenance data on a terminal when performing maintenance activities on site. And after the user imports corresponding work order data in the database system into the local terminal through the terminal according to the work order information, the maintenance activity data entry platform generates a corresponding data entry label page according to the imported work order data.

S230, displaying a data entry label page corresponding to the work order information on a maintenance activity data entry interface;

the maintenance activity data entry interface refers to an interface displayed on the terminal by the maintenance activity data entry platform. And importing the corresponding work order number in the database to a maintenance activity data entry platform according to the work order information, and displaying a data entry label page corresponding to the work order information generated on the data entry platform on a maintenance activity data entry interface through a terminal.

And S240, receiving the entered maintenance data through a data entry label page in the maintenance activity data entry interface.

And displaying the data entry label page generated by the maintenance activity data entry platform in the maintenance activity data entry interface. When the maintenance activities are carried out on site, a user directly inputs maintenance data on the terminal through the data input label page, and the maintenance activity data input platform receives the maintenance data input by the user.

In this embodiment, the work order data corresponding to the work order information is imported from the database according to the work order information, and then the data entry label page corresponding to the work order information is generated. And then displaying a data entry label page corresponding to the work order information on a maintenance activity data entry interface. The end user directly inputs the maintenance data on the terminal through the data input label page, so that the generated maintenance data can be directly input into the terminal during the field work of the instrument control equipment maintenance activities, and a large amount of maintenance data does not need to be manually input after the field work is finished.

In one embodiment, importing work order data corresponding to the work order information from a database according to the work order information includes: importing the check sheet data corresponding to the work order information from a check sheet database according to the work order information; and/or importing the program procedure data corresponding to the work order information from the program procedure entry database according to the work order information.

The check list database refers to a database in which check list data is stored. The check list entry label page refers to a page on which a user can directly input maintenance data on a terminal according to a check list when maintenance activities are carried out on site. A program protocol entry database refers to a database in which program protocol data is stored. The program specification entry tab refers to a page on which a user can directly input maintenance data step by step on a terminal according to a program specification when performing maintenance activities on site. The checking list refers to a form file which is used for checking and maintaining nuclear power plant instrument control equipment. The program specification refers to procedural files according to which the nuclear power plant instrument control equipment is subjected to overhauling activities step by step.

The maintenance activity data entry platform is connected with the check list database and the program regulation entry database through a network. And importing the check sheet data corresponding to the work order information into a maintenance activity data entry platform from a check sheet database system according to the work order information. And after the check sheet data are imported, the maintenance activity data entry platform stores a check sheet entry label page corresponding to the work sheet information. And importing the program procedure data corresponding to the work order information into a maintenance activity data entry platform from the program procedure entry database system according to the work order information. And after the program procedure data is imported, the maintenance activity data entry platform stores a program procedure entry label page corresponding to the work order information.

It can be understood that different work order files correspond to different work order data, and each work order file may include check order data, program specification data, and both check order data and program specification data. In field maintenance activities, a plurality of data entry label pages may be generated according to the work order data imported from the database system, and the label pages may be at least one check order entry label page, at least one program procedure entry label page, or at least one check order entry label page and at least one program procedure entry label page.

In one embodiment, displaying a data entry tab corresponding to the work order information on a maintenance activity data entry interface includes: and receiving the input work order number by acquiring a maintenance activity data entry instruction, and displaying a data entry label page corresponding to the input work order number on a maintenance activity data entry interface. Wherein the work order information includes a work order number.

The repair action data entry instructions refer to computer instructions that display a repair action data entry interface on the terminal. And each work order file corresponds to a unique work order number, receives a maintenance activity data entry instruction triggered by a user, and inputs a corresponding work order number. And the maintenance activity data entry platform receives the maintenance activity data entry instruction and the input work order number, calls a data entry label page corresponding to the input work order number in the maintenance activity data entry platform, and displays the data entry label page on a maintenance activity data entry interface through the terminal.

In one embodiment, displaying a data entry tab corresponding to the work order information on a maintenance activity data entry interface includes: and identifying the work order bar code to obtain work order information, obtaining a corresponding data entry label page according to the obtained work order information, and displaying the obtained data entry label page on a maintenance activity data entry interface.

The work order bar code is a bar code containing work order information on the work order file, and each work order file corresponds to a unique work order bar code. In the field maintenance activities, the terminal scans the work order bar code on the work order file, and corresponding work order information is obtained by identifying the work order bar code. And according to the obtained work order information, the maintenance activity data entry platform acquires a corresponding data entry label page, and the data entry label page is displayed on a maintenance activity data entry interface through a terminal.

In one embodiment, at least one tab is displayed in the repair actions data entry interface, each tab corresponding to a data entry tab page. The method further comprises the following steps: and acquiring a label switching instruction through the data maintenance activity entry interface, and switching and displaying a corresponding data entry label page according to the label switching instruction. And detecting whether the maintenance data in the displayed data entry label page is complete or not, and identifying the label corresponding to the data entry label page according to the detection result.

A label refers to an identification in the repair activities data entry interface that represents a data entry label page. In the field maintenance activities, the maintenance activity data entry platform generates corresponding data entry label pages according to the work order data imported from the database system to the maintenance activity data entry platform according to the work order information of the work order file. And generating data entry label pages with different quantities and different contents in the maintenance activity data entry platform according to different work order files. Then at least one label is displayed in the repair actions data entry interface, and each label corresponds to a data entry label page.

The label switching instructions refer to computer instructions to perform switching between a plurality of data entry label pages in a repair actions data entry interface. And in the maintenance activity data entry interface, receiving a label switching instruction triggered by a user, receiving the label switching instruction by the maintenance activity data entry platform, and switching and displaying a corresponding data entry label page according to the label switching instruction. In the field maintenance activities, a user directly inputs maintenance data on the terminal through the data input label page, and the maintenance activity data input platform receives the maintenance data input by the user. In a maintenance activity data entry interface, a maintenance activity data entry platform can detect whether maintenance data in a plurality of data entry tab pages in the interface is complete. And automatically marking the corresponding label on the data entry label page according to the detection result of whether the maintenance data is complete. That is to say, the maintenance activity data entry platform detects whether the maintenance activity corresponding to the data entry tab is completed, and if the maintenance data is incomplete, it indicates that the corresponding maintenance activity needs to be continued. The user can judge whether the corresponding maintenance activities are finished according to the marks on the labels.

In this embodiment, by detecting whether the maintenance data is complete, if the maintenance data is incomplete, the label corresponding to the data entry label page is automatically identified. The user is reminded of missing or uninformed maintenance data on the data entry label page through the identification on the label, and the risk of data short-term recording and missing is prevented.

In one embodiment, the method further comprises: analyzing and judging the entered maintenance data, and setting a state identifier corresponding to the instrument control equipment according to an analysis and judgment result, wherein the state identifier comprises a qualified identifier, a degraded identifier and a failed identifier. And uploading the entered maintenance data and the analysis and judgment result to a check list database and/or a program rule entry database.

In the field maintenance activities, a user directly inputs maintenance data on the terminal through the data input label page, and the maintenance activity data input platform receives the maintenance data input by the user, analyzes and judges the input maintenance data, and obtains corresponding analysis and judgment results. And carrying out corresponding state identification on the instrument control equipment according to the corresponding analysis and judgment result. The state identification comprises a qualified identification, a degraded identification and a failed identification.

The user directly inputs maintenance data on the terminal through the data input label page, and the maintenance activity data input platform receives the maintenance data input by the user. And analyzing and judging the entered maintenance data, and entering the maintenance activity data into the platform to obtain a corresponding analysis and judgment result. And finally, the maintenance activity data entry platform uploads the entered maintenance data and the analysis and judgment result to the database system. It will be appreciated that in field repair activities, the data entry tab page generated from the incoming work order data from the database system may comprise a plurality of data entry tab pages, which may be at least one checklist entry tab page, at least one procedure protocol entry tab page, or at least one checklist entry tab page and at least one procedure protocol entry tab page. Therefore, the entered maintenance data and the corresponding analysis and judgment results entered in the tab page of the check sheet are uploaded to the check sheet database, and the entered maintenance data and the corresponding analysis and judgment results entered in the tab page of the program specification are uploaded to the program specification entry database.

It can be understood that if a wireless network exists, the recorded maintenance data and the analysis and judgment result can be uploaded to the database system in real time in a wireless network mode. However, when the nuclear power generating unit is in a wireless communication disabled area such as a nuclear island, a control area, an electrical plant and the like, the recorded maintenance data and the analysis and judgment result are uploaded to the database system through a terminal interface mode after the field maintenance activity is finished.

In this embodiment, the entered maintenance data is analyzed and judged, the state identifier corresponding to the instrument control device is set according to the analysis and judgment result, and the entered maintenance data and the analysis and judgment result are uploaded to the database system. The automatic analysis of the check list and the procedure rules and the judgment of the result are realized, and the human calculation errors are reduced. Meanwhile, the maintenance activity data entry platform can give a judgment result in real time and can remind the key abnormal data. In addition, the entered maintenance data and the corresponding analysis and judgment results in the maintenance activity data entry platform can be uploaded to a database system, and a basis is provided for the analysis of subsequent maintenance activities and technical problems.

In one embodiment, the method further comprises: and acquiring a historical data query instruction, and displaying a historical data query interface according to the historical data query instruction. And acquiring historical maintenance data from the check list database and/or the program procedure entry database through a historical data query interface, and displaying the historical maintenance data in the historical data query interface.

Historical data query instructions refer to computer instructions to perform historical data queries in the repair actions data entry platform. The historical data refers to maintenance data generated by previous field maintenance activities of the nuclear power plant. And receiving a historical data query instruction triggered by a user, receiving the historical data query instruction by the maintenance activity data entry platform, and displaying a historical data query interface according to the historical data query instruction. Historical maintenance data are acquired from the database system through the historical data query interface, and the acquired historical maintenance data are displayed in the historical data query interface. Specifically, the historical repair data may be inspection list data, program procedure data, inspection list data and program procedure data. Therefore, the historical maintenance data of the check list is acquired from the check list database through the historical data query interface, and the historical maintenance data of the check list is displayed in the historical data query interface. And acquiring program procedure historical maintenance data from the program procedure input database through a historical data query interface, and displaying the program procedure historical maintenance data in the historical data query interface.

In this embodiment, in the maintenance activity data entry platform, historical maintenance data may be acquired from the database system through the historical data query interface, and the acquired historical maintenance data is displayed in the historical data query interface. The historical maintenance activity data is called and inquired, and data support is provided for analysis and technical decision of the current maintenance activity on site.

In one embodiment, referring to fig. 3, a method for processing nuclear power plant instrument control maintenance data provided by the present application includes the following steps: step 301 to step 303 are steps of a user logging in a maintenance activity data entry platform; step 304 to step 305 are steps of acquiring a work order information import instruction, and displaying a work order data import interface according to the work order information import instruction; step 306 to step 310 are steps of importing the work order data corresponding to the work order number from the database through the work order data import interface and generating a data entry label page corresponding to the work order number; step 311 to step 312 are to display the data entry label page corresponding to the work order number on the maintenance activity data entry interface; steps 313 to 314 are receiving entered repair data via a data entry tab in the repair actions data entry interface; steps 315 to 321 are steps of analyzing and calculating the entered maintenance data and uploading the maintenance data to a database system; steps 322 through 327 are historical repair data queries.

Step 301, a maintenance activity data entry platform is installed on the terminal, the maintenance activity data entry platform is opened, and a login instruction triggered by a user can be received.

And 302, the maintenance activity data entry platform receives a login instruction and displays a user login interface according to the login instruction. Referring to fig. 4, a user name, a corresponding input box, a password, a corresponding input box, a right, and a corresponding input box are displayed in the user login interface. Wherein, the authority input box is provided with a pull-down button.

And step 303, entering a maintenance activity data entry platform according to the user name, the password and the authority.

And acquiring the input user name and password through the user login interface, and enabling the terminal to enter a maintenance activity data entry platform if the user can select corresponding authority. The user login interface realizes the management of authorized users. The users comprise a data entry user, a data auditing user and an administrator user. Data entry user primary responsibility is to data entry save for maintenance activities. Data auditing user responsibility verifies and validates the entered data. The administrator has the highest user permission level, and can manage the data of the maintenance activity data entry platform, including the permissions of data reconstruction, deletion, user authorization management and the like.

Step 304, please refer to fig. 5, that is, a work order information import instruction triggered by a user can be received on the maintenance activity data entry platform through the terminal.

And 305, receiving the work order information import instruction by the maintenance activity data entry platform, and displaying a work order data import interface.

Step 306, a work order number input by a user on the work order data import interface may be received. Referring to fig. 6, on the work order data import interface, the import of the work order data can be performed in two ways: and the work order data is imported in batch and the work order data is imported singly. The batch import of the work order data refers to the batch import of the work order data in the form of an EXCEL table, wherein the number of the work order of the batch is stored in the EXCEL table. The single import of the work order data refers to the import of the work order data by directly inputting a single work order number. Further, the user may trigger an import data browse instruction to browse the corresponding import data.

The maintenance activity data entry platform establishes a corresponding relation with the check list database and the program regulation entry database through the work list number. The work order data entered into the platform through the network maintenance activity data can be periodically updated along with the work order data corresponding to the work order number entered into the check order database and the program specification.

And 307, the maintenance activity data entry platform sends work order information to the database system, wherein the work order information is a single work order number or a batch work order number input by a user through the work order data import interface.

And 308, the database system searches the work order data corresponding to the work order number according to the received work order number. Specifically, the check list database searches corresponding check list data according to the received work order number, and the program regulation entry database searches corresponding program regulation data according to the received work order number.

Step 309, the database system sends the searched check list data and/or program procedure data to the maintenance activity data entry platform.

Step 310, the maintenance activity data entry platform receives the checklist data and/or the procedure data and generates a corresponding data entry label page. Specifically, after the check sheet data is imported, the maintenance activity data entry platform stores a check sheet entry label page corresponding to the work order information. And after the program procedure data is imported, the maintenance activity data entry platform stores a program procedure entry label page corresponding to the work order information. The data entry tab page generated from the work order data imported from the database system may include a plurality.

In step 311, referring to fig. 7, on the maintenance activity data entry uploading interface, a maintenance activity data entry instruction triggered by the user may be received, and then the input work order number may be received.

And step 312, calling a data entry label page corresponding to the input work order number in the maintenance activity data entry platform, and displaying the data entry label page on a maintenance activity data entry interface through the terminal. Different work order files generate data entry label pages with different quantities and different contents in the maintenance activity data entry platform. Referring to FIG. 8, at least one tab 810 is displayed in the repair actions data entry interface, and each tab corresponds to a data entry tab page.

In step 313, referring to fig. 8, in the maintenance activity data entry interface, a user-triggered tag switching instruction may be received.

Referring to FIG. 8, the maintenance activity data entry platform receives a tag switch command, step 314. And switching and displaying the corresponding data entry label page according to the label switching instruction. Wherein the currently displayed data entry tab page is identified using up arrow 812.

At step 315, referring to FIG. 9, the data entry tab in the maintenance activity data entry interface receives the maintenance data record generated during the maintenance activity.

At step 316, referring to FIG. 9, the repair actions data entry platform receives the entered repair data.

And 317, detecting whether the entered maintenance data is complete by the maintenance activity data entry platform, and automatically identifying the corresponding label on the data entry label page according to the detection result of whether the maintenance data is complete. Referring to fig. 9, the asterisk 811 indicates that the data for the data entry tab page has not been entered or is not entered in its entirety.

In step 318, referring to fig. 9, the maintenance activity data entry platform analyzes and judges the entered maintenance data according to the built-in calculation and judgment formula 910.

In step 319, please refer to fig. 9, the maintenance activity data entry platform performs corresponding status identification on the instrumentation control device according to the corresponding analysis and determination result. Where status identification 920 includes pass, degrade, and fail. For example, the failure results are identified 921 in red, the degradation results are identified 922 in yellow, and the qualifying results are identified 923 in black. The yellow and red are mainly used for prompting the data to have abnormal conditions and reminding the user of special attention.

In step 320, referring to fig. 10 and 11, the maintenance activity data entry platform uploads the entered maintenance data 1010 and the analysis and judgment result 1020 to the database system. Specifically, the entered maintenance data and the corresponding analysis and judgment results in the checklist entry tab are uploaded to the checklist database 1030. And uploading the entered maintenance data and the corresponding analysis and judgment results in the program procedure entry tab to the program procedure entry database 1040.

Step 321, the database system stores the recorded maintenance data and the analysis and judgment result.

Referring to fig. 5, a user-triggered historical data query command may be received, step 322.

And 323, displaying a historical data query interface on the maintenance activity data entry platform according to the historical data query instruction.

At step 324, the maintenance activity data entry platform sends the historical data query instruction to the database system.

Step 325, the database system searches the corresponding historical maintenance data according to the historical data query instruction.

In step 326, the database system sends the historical maintenance number corresponding to the historical data query instruction to the maintenance activity data entry platform.

Step 327, the maintenance activity data entry platform displays historical maintenance data corresponding to the historical data query instruction.

In this embodiment, the work order information import interface is displayed according to the work order information import instruction by obtaining the work order information import instruction. And importing the work order data corresponding to the work order number from the database through the work order information import interface to generate a data entry label page corresponding to the work order number. And displaying the data entry label page corresponding to the work order number on a maintenance activity data entry interface. Finally, the entered maintenance data is received through a data entry label page in the maintenance activity data entry interface, the fact that the generated maintenance data are directly entered into a terminal when the instrument control equipment maintenance activity works on site is achieved, and after the site work is finished, a large amount of maintenance data do not need to be entered manually. The entered maintenance data are analyzed and judged, the state identification corresponding to the instrument control equipment is set according to the analysis and judgment result, and then the entered maintenance data and the analysis and judgment result are uploaded to a check list database and/or a program rule entry database. The maintenance data and the analysis and judgment results are updated in real time, and the risk of misjudgment or misadjustment of the instrument control equipment is reduced.

In one embodiment, referring to fig. 12, a method for processing nuclear power plant instrument control maintenance data provided by the present application includes the following steps: step 1201 to step 1203 are steps of logging in a maintenance activity data entry platform by a user; step 1204 to step 1205 are steps of acquiring a work order information import instruction by scanning a barcode; step 1206 to step 1208, importing the work order data corresponding to the work order barcode from the database by scanning the work order barcode; step 1209 is a step of generating a data entry label page corresponding to the work order barcode; step 1210 to step 1212 are to display the data entry label page corresponding to the work order barcode on the maintenance activity data entry interface by scanning the work order barcode; steps 1213 through 1214 are receiving entered repair data via a data entry tab in the repair actions data entry interface; steps 1215 to 1221 are steps of analyzing and calculating the entered maintenance data and uploading the data to a database system; steps 1222 through 1227 are steps of historical repair data queries.

Step 1201, a maintenance activity data entry platform is installed on the terminal, the maintenance activity data entry platform is opened, and a login instruction triggered by a user can be accepted.

Step 1202, the maintenance activity data entry platform receives a login instruction and displays a user login interface according to the login instruction. And displaying the user name and the corresponding input box, the password and the corresponding input box, the authority and the corresponding input box in the user login interface. Wherein, the authority input box is provided with a pull-down button.

And step 1203, entering a maintenance activity data entry platform according to the user name, the password and the authority.

And acquiring the input user name and password through the user login interface, and enabling the terminal to enter a maintenance activity data entry platform if the user can select corresponding authority. The user login interface realizes the management of authorized users. The users comprise a data entry user, a data auditing user and an administrator user. Data entry user primary responsibility is to data entry save for maintenance activities. Data auditing user responsibility verifies and validates the entered data. The administrator has the highest user permission level, and can manage the data of the maintenance activity data entry platform, including the permissions of data reconstruction, deletion, user authorization management and the like.

Step 1204, obtain the paper work order file, please refer to fig. 13, show the work order barcode 1310 on the work order file.

Step 1205, please refer to fig. 13, scanning the work order barcode, and the maintenance activity data entry platform identifies the work order barcode to obtain work order information corresponding to the work order barcode.

And step 1206, the maintenance activity data entry platform sends the obtained work order information to the database system.

Step 1207, the database system searches the work order data corresponding to the work order information according to the received work order information. Specifically, referring to fig. 14, the checklist database searches for corresponding checklist data according to the received work order information, and the program specification entry database searches for corresponding program specification data according to the received work order information.

Referring to FIG. 14, the database system sends the retrieved checklist data and/or procedure data to the maintenance activities data entry platform via the network, step 1208. It can be appreciated that, if a wireless network exists, the checklist data and/or the procedure data from the database system can be imported to the maintenance activity data entry platform via the wireless network via the barcode on the work order file. However, when the nuclear power generating unit is in a wireless communication disabled area of a part of plant buildings, such as a nuclear island, a control area, an electrical plant building and the like, check list data and/or program procedure data in the database system need to be imported to a maintenance activity data entry platform through a terminal interface mode after a field maintenance activity starts.

Step 1209, the maintenance activity data entry platform receives the checklist data and/or the procedure data, and generates a corresponding data entry label page. Specifically, referring to fig. 14, after the check sheet data is imported, the maintenance activity data entry platform stores a check sheet entry tab 1430 corresponding to the work sheet information. After the program procedure data is imported, the maintenance activity data entry platform stores a program procedure entry tab 1440 corresponding to the work order information. The data entry tab page generated from the work order data imported from the database system may include a plurality.

Step 1210, the user scans the work order barcode displayed on the work order file through the terminal.

In step 1211, referring to fig. 15, in the work order information reading and calling interface, the work order information corresponding to the work order barcode is obtained by identifying the work order barcode maintenance activity data entry platform.

In step 1212, please refer to fig. 15, the corresponding check sheet and/or procedure is called according to the obtained work order information maintenance activity data entry platform, and a corresponding data entry label page is generated.

And 1213, calling a data entry label page corresponding to the input work order information in the maintenance activity data entry platform, and displaying the data entry label page on a maintenance activity data entry interface through the terminal. Different work order files generate data entry label pages with different quantities and different contents in the maintenance activity data entry platform. At least one label is displayed in the maintenance activity data entry interface, and each label corresponds to a data entry label page.

Step 1214, in the maintenance activity data entry interface, a user-triggered tag switching instruction may be received.

At step 1215, the maintenance activity data entry platform receives a label switching instruction. And switching and displaying the corresponding data entry label page according to the label switching instruction. Wherein the currently displayed data entry tab page is identified using an up arrow.

At step 1216, the data entry tab page in the repair actions data entry interface receives the repair data record generated during the repair action.

At step 1217, the repair actions data entry platform receives the entered repair data.

Step 1218, the maintenance activity data entry platform detects whether the entered maintenance data is complete, and automatically identifies the corresponding label on the data entry label page according to the detection result of whether the maintenance data is complete.

And step 1219, the maintenance activity data entry platform analyzes and judges the entered maintenance data according to a built-in calculation judgment formula.

And step 1220, the maintenance activity data entry platform performs corresponding state identification on the instrument control equipment according to the corresponding analysis judgment result. Wherein the status identification comprises pass, degrade and fail. For example, the failure results are identified in red, the degradation results in yellow, and the qualification results in black. The yellow and red are mainly used for prompting the data to have abnormal conditions and reminding the user of special attention.

And 1221, the maintenance activity data entry platform performs corresponding state identification on the instrument control equipment according to the corresponding analysis judgment result. Wherein the status identification comprises pass, degrade and fail. For example, the failure results are identified in red, the degradation results in yellow, and the qualification results in black. The yellow and red are mainly used for prompting the data to have abnormal conditions and reminding the user of special attention.

And 1222, the maintenance activity data entry platform uploads the entered maintenance data and the analysis and judgment result to the database system. Specifically, the entered maintenance data and the corresponding analysis and judgment results entered in the tab page of the check sheet are uploaded to a check sheet database. And uploading the entered maintenance data and the corresponding analysis and judgment results in the program procedure entry label page to a program procedure entry database.

Step 1223, a user-triggered historical data query instruction may be received.

Step 1224, displaying a historical data query interface on the maintenance activity data entry platform according to the historical data query instruction.

Step 1225, the maintenance activity data entry platform sends the historical data query instruction to the database system.

And step 1226, the database system searches corresponding historical maintenance data according to the historical data query instruction.

Step 1227, the database system sends the historical maintenance number corresponding to the historical data query instruction to the maintenance activity data entry platform

And 1228, displaying historical maintenance data corresponding to the historical data query instruction by the maintenance activity data entry platform.

In this embodiment, the work order data corresponding to the work order barcode is imported from the database system by identifying the work order barcode, and the data entry label page corresponding to the work order barcode is generated. And displaying the data entry label page corresponding to the work order bar code on a maintenance activity data entry interface. The bar code is scanned to prevent the user from importing wrong work order data due to inputting wrong work order numbers. And finally, receiving the entered maintenance data through a data entry label page in the maintenance activity data entry interface. The method and the device have the advantages that the generated maintenance data are directly recorded into the terminal during the field work of the instrument control equipment maintenance activities, and a large amount of maintenance data do not need to be recorded manually after the field work is finished. The entered maintenance data are analyzed and judged, the state identification corresponding to the instrument control equipment is set according to the analysis and judgment result, and then the entered maintenance data and the analysis and judgment result are uploaded to a check list database and/or a program rule entry database. The maintenance data and the analysis and judgment results are updated in real time, and the risk of misjudgment or misadjustment of the instrument control equipment is reduced.

Referring to FIG. 16, in one embodiment, the present application provides a nuclear power plant instrumentation maintenance data processing apparatus 1600 comprising:

a work order data import module 1610, configured to import work order data corresponding to the work order information from the database according to the work order information;

the input label page generating module 1620 configured to generate a data input label page corresponding to the work order information according to the work order data corresponding to the work order information;

an entry interface display module 1630, configured to display a data entry label page corresponding to the work order information on the maintenance activity data entry interface;

a maintenance data entry module 1640 is used to receive entered maintenance data via the data entry tab in the maintenance activity data entry interface.

For specific limitations of the processing device for the nuclear power plant instrument control maintenance data, reference may be made to the above limitations of the processing method for the nuclear power plant instrument control maintenance data, which are not described herein again. All or part of each module in the processing device for the instrument control maintenance data of the nuclear power plant can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, the present application provides a computer device. The computer device includes: the system comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the program realizes the steps of the nuclear power plant instrument control maintenance data processing method provided by the embodiments when being executed by the processor. It will be appreciated that the computer device may be any of a terminal, a smartphone, a PC, etc.

In one embodiment, the present application provides a computer-readable storage medium, on which a computer program is stored, wherein the computer program is executed by a processor to implement the steps of the nuclear power plant instrument control maintenance data processing method provided in the above embodiments.

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 hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. 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 technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A method for processing nuclear power plant instrument control maintenance data, the method comprising:

importing work order data corresponding to the work order information from a database according to the work order information;

generating a data entry label page corresponding to the work order information according to the work order data corresponding to the work order information;

displaying a data entry label page corresponding to the work order information on a maintenance activity data entry interface;

receiving entered maintenance data through the data entry label page in the maintenance activity data entry interface, analyzing and judging the entered maintenance data, and setting a state identifier corresponding to the instrument control equipment according to an analysis and judgment result;

and uploading the entered maintenance data and the analysis and judgment result to a check list database and/or a program procedure entry database.

2. The method of claim 1, wherein importing the work order data corresponding to the work order information from the database according to the work order information comprises:

importing the check sheet data corresponding to the work order information from a check sheet database according to the work order information; and/or

And importing program procedure data corresponding to the work order information from the program procedure entry database according to the work order information.

3. The method of claim 1, wherein the work order information includes a work order number; the step of displaying the data entry label page corresponding to the work order information on a maintenance activity data entry interface comprises the following steps:

the method comprises the steps of receiving an input work order number by obtaining a maintenance activity data entry instruction, and displaying a data entry label page corresponding to the input work order number on a maintenance activity data entry interface.

4. The method of claim 1, wherein displaying a data entry tab corresponding to the work order information on a maintenance activity data entry interface comprises:

and identifying the work order bar code to obtain work order information, obtaining a corresponding data entry label page according to the obtained work order information, and displaying the obtained data entry label page on a maintenance activity data entry interface.

5. The method of claim 1, wherein at least one label is displayed in the repair actions data entry interface, each label corresponding to a data entry label page; the method further comprises the following steps:

acquiring a label switching instruction through the maintenance activity data entry interface, and switching and displaying a corresponding data entry label page according to the label switching instruction;

and detecting whether the maintenance data in the displayed data entry label page is complete or not, and identifying the label corresponding to the data entry label page according to the detection result.

6. The method of claim 1, wherein the status flags comprise a qualified flag, a degraded flag, and a failed flag.

7. The method of claim 1, further comprising:

acquiring a historical data query instruction, and displaying a historical data query interface according to the historical data query instruction;

and acquiring historical maintenance data from the check list database and/or the program procedure entry database through the historical data query interface, and displaying the historical maintenance data in the historical data query interface.

8. A processing apparatus of nuclear power plant instrument control maintenance data, characterized by includes:

the work order data import module is used for importing work order data corresponding to the work order information from the database according to the work order information;

the input label page generating module is used for generating a data input label page corresponding to the work order information according to the work order data corresponding to the work order information;

the entry interface display module is used for displaying a data entry label page corresponding to the work order information on a maintenance activity data entry interface;

and the maintenance data entry module is used for receiving entered maintenance data through the data entry label page in the maintenance activity data entry interface, analyzing and judging the entered maintenance data, and setting a state identifier corresponding to the instrument control equipment according to an analysis judgment result.

9. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the steps of the method of any of claims 1-7 are implemented when the computer program is executed by the processor.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.

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