CN113435687A - Nuclear power supervision analysis system based on big data - Google Patents

Abstract

The invention provides a nuclear power supervision analysis system based on big data, which comprises a supervision personnel management unit and a flow unit, wherein the supervision personnel management unit is used for managing the qualification audit of supervision personnel; the output end of the supervision personnel management unit is connected with the flow unit, and the flow unit is used for judging the quality of the nuclear power construction flow; the output end of the flow unit is connected with a mail management unit, the mail management unit is used for auditing and managing the construction flow files, the output end of the mail management unit is connected with a text number generation unit, and the text number generation unit is used for verifying and coding the production flow. Therefore, the generation of the letter number of the file letter is realized through the letter number generation unit, the quick tracing and positioning of a file circulation channel are realized through the production letter number, the corresponding letter number can be sent to realize the proofreading function when the service interaction is generated in the construction process of the process unit, the safety requirement on nuclear power supervision is met, and the quality of the whole process of the scheme is supervised in real time in cooperation with the process unit.

Description

Nuclear power supervision analysis system based on big data

Technical Field

The invention relates to the technical field of nuclear power construction supervision, in particular to a nuclear power supervision analysis system based on big data.

Background

Nuclear power is a power station which generates power by driving a steam turbine through nuclear energy heating, and in order to avoid nuclear leakage accidents, the building grade required by a nuclear power station is very high, so that effective quality supervision is required during construction.

However, the current nuclear power quality supervision cannot screen supervision personnel, lacks supervision capability of an early planning part, lacks supervision control over daily and construction hidden dangers, and cannot meet the requirements of supervision analysis.

Disclosure of Invention

The embodiment of the invention provides a nuclear power supervision analysis system based on big data, which is used for solving the technical problem that the current supervision analysis in the prior art cannot meet the requirements.

The embodiment of the invention provides a nuclear power supervision analysis system based on big data, which comprises: the supervisor management unit is used for managing the qualification audit of the supervisor;

the output end of the supervision personnel management unit is connected with the flow unit, and the flow unit is used for judging the quality of the nuclear power construction flow;

the output of flow unit is connected with letter management unit, letter management unit is used for auditing the management to the construction flow file, letter management unit's output is connected with originating number generation unit, originating number generation unit is used for generating the flow check code.

According to the nuclear power supervision analysis system based on the big data, the supervision personnel management unit comprises a qualification evaluation module, and the qualification evaluation module is used for evaluating the qualification of supervision personnel;

the output end of the qualification evaluation module is connected with an authorization module, and the authorization module is used for authorizing the personnel who evaluate the qualification in the qualification evaluation module.

According to the nuclear power supervision analysis system based on big data, the flow unit comprises an organization mechanism module, a personnel information module, a quality outline module and an approval module;

the organization mechanism module and the personnel information module are used for counting and tracing the information of the construction organization mechanism and the construction personnel;

the output end of the quality outline module is connected with the examination and approval module, the quality outline module is used for carrying out design input on the quality outline, and the examination and approval module is used for carrying out qualified examination and approval on the quality outline.

According to the nuclear power supervision analysis system based on big data, the output end of the flow unit is also connected with a project portal unit, and the project portal unit is used for displaying project information.

According to the nuclear power supervision and analysis system based on the big data, the output end of the flow unit is further connected with a construction management unit and a daily management unit, the construction management unit is used for managing construction safety, and the daily management unit is used for checking construction daily staff and hidden dangers.

According to the nuclear power supervision and analysis system based on big data, the construction management unit comprises an engineering pause module, the input end of the engineering pause module is connected with the output end of the flow unit, and the engineering pause module is used for pausing the construction which is not approved;

the output end of the project pause module is connected with a construction scheme module, the construction scheme module is used for simulating and updating a construction scheme, the output end of the construction scheme module is connected with a construction scheme examination module, and the construction scheme examination module is used for carrying out security examination on construction precaution.

According to the nuclear power supervision and analysis system based on big data, the daily management unit comprises an entrance and intersection management module, a personnel checking module, a hidden danger checking module, an equipment entrance management module and an engineering stop and re-work management module;

the system comprises an entrance and closing management module, a staff checking module, a hidden danger checking module, an equipment entrance management module and an engineering stop and re-work management module, wherein the entrance and closing management module is used for managing entrance internal cultivation, the output end of the entrance and closing management module is connected with the staff checking module, the staff checking module is used for checking the qualification of three types of staff, the hidden danger checking module is used for detecting daily hidden dangers and special hidden dangers in a field, the equipment entrance management module is used for managing the entrance of construction equipment, and the engineering stop and re-work management module is used for managing the stop and re-work of a work object.

According to the nuclear power supervision analysis system based on big data, the output ends of the construction management unit and the daily management unit are connected with the quality management unit, and the quality management unit is used for evaluating and managing the design quality;

the output of quality management unit is connected with safety supervision unit and cost management unit, safety supervision unit is used for tracking supervision personnel supervision orbit, cost management unit is used for managing the cost amount.

According to the nuclear power supervision analysis system based on the big data, the quality management unit comprises an acceptance sheet reporting module, a design change module, a quality control sheet module and a nuclear power safety evaluation module, the acceptance sheet reporting module is connected with the output end of the safety supervision unit, the acceptance sheet reporting module and the quality control sheet module are used for collecting construction acceptance sheets and judging acceptance quality, the design change module is used for changing design notification, and the nuclear power safety evaluation module is used for evaluating quality safety of nuclear power equipment.

According to the nuclear power supervision and analysis system based on big data, the cost management unit comprises a payment certificate module and a cost information module, the payment certificate module is used for obtaining payment information, and the cost information module is used for carrying out statistics on engineering cost data and real-time engineering cost statistics;

the safety supervision unit comprises an action tracking module, a log establishing module and a side station recording module, wherein the action tracking module is used for tracing the track of the person to be established, the supervision log unit is used for counting quality supervision data, and the side station recording module is used for recording the workload of supervision persons.

According to the nuclear power supervision analysis system based on the big data, the generation of the document number of the file letter is realized through the designed document number generation unit, the rapid tracing and positioning of the file circulation channel are realized through the production of the document number, the corresponding document number can be sent out to realize the checking function when the service interaction is generated in the process unit construction process, the safety requirement on the nuclear power supervision is met, the process unit can monitor the nuclear power construction process, and the quality supervision of the whole process of the scheme can be realized by matching with the document number generation unit.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a system logic diagram of an embodiment of a big data based nuclear power monitoring and analysis system of the present invention;

FIG. 2 is a system block diagram of a manager management unit in the big data-based nuclear power supervision analysis system shown in FIG. 1;

FIG. 3 is a system block diagram of a flow element in the big data based nuclear power monitoring and analyzing system shown in FIG. 1;

FIG. 4 is a system block diagram of a construction management unit in the big data based nuclear power supervision analysis system shown in FIG. 1;

FIG. 5 is a system block diagram of a daily management unit in the big data-based nuclear power supervision analysis system shown in FIG. 1;

FIG. 6 is a system block diagram of a quality management unit in the big-data based nuclear power monitoring and analysis system shown in FIG. 1;

FIG. 7 is a system block diagram of a cost management unit in the big data based nuclear power monitoring and analysis system shown in FIG. 1;

FIG. 8 is a system block diagram of a security supervision unit in the big data based nuclear power supervision analysis system shown in FIG. 1;

reference numerals:

10. a supervisor management unit; 110. a qualification evaluation module; 120. an authorization module;

20. a flow unit; 210. an organization mechanism module; 220. a personnel information module; 230. a quality outline module; 240. an approval module;

30. a mail management unit;

40. a message number generation unit;

50. a project portal unit;

60. a construction management unit; 610. an engineering pause module; 620. a construction scheme module; 630. a construction scheme review module;

70. a daily management unit; 710. an entrance crossing management module; 720. a personnel checking module; 730. a hidden danger checking module; 740. a device entry management module; 750. the project stopping and reworking management module;

80. a quality management unit; 801. a check sheet reporting module; 802. a design change module; 803. a quality control single module; 804. a nuclear power safety evaluation module; 810. a security supervision unit; 8110. an action tracking module; 8120. establishing a log module; 8130. a side station recording module; 820. a cost management unit; 8210. a payment certificate module; 8220. and a fee information module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

With reference to fig. 1 to 8, the nuclear power supervision analysis system based on big data provided by the present invention includes a supervisor management unit 10 and a flow unit 20, wherein the supervisor management unit 10 is configured to manage quality audit of supervisors, an output end of the supervisor management unit 10 is connected to the flow unit 20, and the flow unit 20 is configured to judge quality of a nuclear power construction flow. The output end of the flow unit 20 is connected with a mail management unit 30, the mail management unit 30 is used for auditing and managing the construction flow files, the output end of the mail management unit 30 is connected with a text number generation unit 40, and the text number generation unit 40 is used for generating flow verification codes. It should be noted that the system can realize systematic management of the mail, make the mail have traceability, and improve the front-end quality control of the construction end.

Referring to fig. 1, the following system refers to a nuclear power supervision and analysis system based on big data, and is not described herein. Specifically, traceability of safe construction is realized through qualification examination and process monitoring of a proctoring personnel organization, and systematic examination and approval management needs of proctoring construction are realized through traceability management of letters. Meanwhile, the generation of the message number of the file letter is realized through the designed message number generation unit 40, the channel is quickly traced and positioned through the production of the message number, the corresponding message number can be sent to realize the proofreading function when the construction process of the process unit 20 generates service interaction, the safety requirement of nuclear power supervision is met, the supervision personnel management unit 10 is used for communicating the supervision personnel big database, the supervision capability qualification evaluation is carried out, and the authorization safety of the supervision personnel is met.

The mail management unit 30 may collect a service of the letter copy and record, and the letter copy and record service function may stop the transmission of the rework order only for the preparation of the reason-keeping schema, the reason-keeping plan, the program file, and the like. General letter and report files such as QC supervision reports, project acceptance and quality inspection reports, quality trend analysis reports, administrative monthly reports, administrative annual reports and the like are recorded by other modules according to the letter sending function of related files such as meeting minutes, document audit sheets, work contact sheets, rectification notice sheets, non-conforming notice sheets and the like, and logic numbering is carried out after the recording.

The letter management unit 30 includes letter channel number management, the letter channel numbers are uniformly managed by channel number controller types, and the Key values of the channel number managers are composed of letter sender codes, letter receiver codes and letter types, wherein the letter types determine the minimum running codes and the maximum running codes of the channel number controllers. When a supervision document person takes a number for a letter sending, the system needs to search whether a channel number controller exists in the system according to the item department, the letter sending party code, the letter receiving party code and the file type of a current user, if so, the serial number to be taken of the channel number controller is taken as the serial number of the letter sending, and after the number is taken, the serial number to be taken of the corresponding number taking controller needs to be added by one; if the channel number controller can not be found, the system automatically creates a new channel number controller, selects the minimum channel number from the newly-built channel number controllers as the serial number of the texting piece, and adds one to the serial number to be fetched of the corresponding channel number controller after fetching the serial number. The system needs to inquire the number breaking information of all channel number controllers at regular time, and stores the number breaking information into the attribute of the number breaking information of the channel number controllers after inquiry. When the channel number controller is used for taking the number, if the 'number breaking information' of the channel number controller is not empty, the number in the 'number breaking information' needs to be taken firstly, meanwhile, the taken number is removed from the 'number breaking information', and when the number in the 'number breaking information' is taken, the 'serial number to be taken' of the channel number controller does not need to be adjusted. If the serial number to be fetched is equal to the maximum serial number of the channel number manager, a prompt box needs to be popped up to remind a user to contact the manager to adjust the maximum serial number when the serial number is fetched again.

The mail management unit 30 further includes a mail number-taking and distributing process, the mail number-taking and distributing service function is directed at all the mails needing to be sent out by the supervisor, including the preparation of the supervisory quality assurance schema, the supervisory plan, the program files, etc., the sending of the stop-and-repeat work orders, and the files of general mails and reports, such as QC supervision reports, project pre-inspection acceptance and quality inspection reports, quality trend analysis reports, supervisory month reports, supervisory year reports, etc., meeting summary, document review, work contact lists, reform notification lists, non-compliance notification lists, etc. The letter needed to send has been examined and approved, and the document interface persons of the letter receiver and the transcriber can log in the system to obtain the related letter. The document loss approval process is also included, the document loss approval table builder submits the document loss approval table, then the approval personnel of the subsequent process node is selected, the document loss approval process is started, and the responsible person, the head office/sub head office and the supervision document responsible person of the department where the document loss approval table builder is located sequentially approve the document loss approval table in the system until the document loss approval table is approved. When the file is lost and approved, the process of recovering the invalidation of the associated drawing file/change file under the file loss and approval table is automatically completed, meanwhile, the 'unrecovered reason' of the drawing file/change file is set as 'file loss', the code of the file loss and approval table is noted in the 'remark', the state of the corresponding drawing file/change file is set as 'invalidation', and finally, the system automatically adds the 'invalidation' seal to the attachment of the design file/change file. Therefore, the examination and approval of the whole process of the engineering file are realized, and the supervision of the file process is improved.

Referring to fig. 2, the manager management unit 10 includes a qualification evaluation module 110, the qualification evaluation module 110 is used for evaluating the qualification of the manager, an output end of the qualification evaluation module 110 is connected to an authorization module 120, and the authorization module 120 is used for authorizing the person who is evaluated to be qualified in the qualification evaluation module 110. Namely, the qualification evaluation module 110 in the supervisor management unit 10 evaluates the qualification of the supervisor who has entered the job and received the professional basic training, the new function is used in the authorization interface in the authorization module 120, and the qualification evaluation and authorization table of the supervisor is filled according to the resume information of the supervisor.

That is, the supervisor management unit 10 includes an approval process and an authorization process. The examination and approval process comprises the following steps of compiling a qualification evaluation and authorization table of the supervisor, namely corresponding to the supervisor who has already worked and has received professional basic knowledge training, using a new establishment function on a qualification evaluation and authorization interface of the supervisor by the supervisor, filling the qualification evaluation and authorization table of the supervisor according to history information of the supervisor, and dividing the qualification evaluation and authorization table into two conditions of 'initial evaluation' and're-evaluation' according to different evaluation stages, wherein the qualification evaluation and authorization interface of the supervisor has basic functions of new establishment, editing, deletion and the like, and when the supervisor completes the table, the system performs data repeated verification.

Referring to FIG. 3, the process unit 20 includes an organization module 210, a personnel information module 220, a quality outline module 230, and an approval module 240. The authorization process comprises qualification evaluation of the supervision personnel and approval of the authorization table, an approval module 240 in the process unit 20 automatically generates an approval process, and the qualification evaluation of the supervision personnel and the approval of the authorization table are performed by the node personnel of the approval process; if the approver does not agree, the refund opinion can be filled in and the return operation can be completed. The proctoring personnel can modify or directly delete the returned proctoring qualification evaluation and authorization table, and the modified proctoring qualification evaluation and authorization table can be submitted for approval again. Furthermore, the system automatically generates the supervision personnel qualification evaluation and authorization information ledger according to the examined and approved supervision personnel qualification evaluation and authorization table contents, and the supervision personnel qualification evaluation and authorization information ledger cannot be modified or deleted so as to ensure that the information cannot be tampered.

For the above flow unit 20, the organization module 210 and the personnel information module 220 in the flow unit 20 are used for performing statistics and tracing on the construction organization and the construction personnel information; the output end of the quality outline module 230 is connected with an approval module 240, the quality outline module 230 is used for inputting the design of the quality outline, and the approval module 240 is used for carrying out qualified approval on the quality outline.

In the approval process, the nuclear power supervision analysis system based on the big data comprises a start-up report management interface, supervision document personnel enter the establishment of a start-up report, and accessories such as start-up report supporting materials and start-up orders can be added to the start-up report when the start-up report is established. And then carrying out batch import, namely, supervising document personnel to enter a system start-up report management interface to import a start-up report, wherein the organized start-up report import table needs to be selected on the start-up report import interface during import so as to finish the import of the start-up report. It should be noted that, during the import process, the system needs to verify the validity of all data in the import table of the imported start-up report, and if a certain start-up report data is found to be incorrect, for example, a certain necessary filling column does not fill in content/an attachment path and cannot find a corresponding file, the system does not perform subsequent operations, and directly pops up a corresponding error prompt, which needs to specify the location of the error, for example, which column of the several rows, and prompt the cause of the error. If all the data in the start-up report import table pass the verification, the system needs to search whether a corresponding start-up report list exists in the system according to the report code of each start-up report data in the imported start-up report import table, if so, the attribute of the corresponding start-up report in the system is updated, and otherwise, the system creates a new start-up report according to the data in the start-up report import table. After the start-up report in the system is newly created/updated, the accessory is uploaded to the system from the local according to the accessory path of the corresponding start-up report in the start-up report import table, and the accessory is associated with multiple corresponding start-up reports.

The construction scheme corresponding to the start-up report needs to be checked after the start-up report is completed, and the construction scheme needs to pass the check of the supervisor and has a review condition, that is, a scheme that the construction scheme needs to be approved and approved by the flow unit 20. And if the examination round of the construction scheme is more than 1, the main examiner of the previous round of examination can directly distribute or add specific examiners to the construction scheme examination order, and the main examiner does not need to be distributed to the construction scheme examination order by the main examiner and the interface persons of all co-examiners. When the main auditor and the auditor auditors audit the construction scheme, an audit opinion needs to be created for the construction scheme reported for audit, and if no opinion exists, an audit opinion without opinions needs to be created, thereby completing the audit task. When the main auditor and each co-auditor complete the audit of the construction scheme, all the audit opinions under the construction scheme audit list need to be collected into the audit opinion collecting attribute of the construction scheme, and after the construction scheme audit opinions are collected, the system needs to automatically record the audit opinions of the construction scheme into a corresponding supervision log.

The output of the flow unit 20 is also connected to a project portal unit 50, the project portal unit 50 being used for presenting project information. The basic information of the project can be quickly acquired through the project portal unit 50.

In an embodiment of the present invention, the system includes a project portal information management interface, where a supervising unit user can enter the project portal information management interface to create project portal information, and the detailed content of the project portal information needs to be filled in during creation to complete the creation of the corresponding project portal information. Specifically, the encoding of the project portal information is automatically generated by the system, and the categories of the project portal information mainly include: project dynamics, project style, standard specifications, important documents, training courseware, duty lists, and the like. The project portal information also needs to show detailed information of users related to project departments, such as address lists and key contacts, but the information project portal does not need to be specially compiled, approved and issued by the users. The project portal information also needs to display information such as experience feedback, management programs and the like, the data can be directly acquired from the CSS system, and the data can be directly displayed on the project portal after the data takes effect. Experience feedback, standard specifications, etc. data may be shared through various project portals. The basic information of the related item can be directly and rapidly acquired through the item portal unit 50.

Referring to fig. 4 and 5, the output end of the flow unit 20 is further connected to a construction management unit 60 and a daily management unit 70, the construction management unit 60 is used for managing construction safety, and the daily management unit 70 is used for checking construction daily staff and hidden dangers.

With reference to fig. 4, further, the construction management unit 60 includes an engineering pause module 610, an input end of the engineering pause module 610 is connected to an output end of the flow unit 20, and the engineering pause module 610 is configured to pause the construction that fails to pass the approval; the output end of the project suspending module 610 is connected with a construction scheme module 620, the construction scheme module 620 is used for simulating and updating a construction scheme, the output end of the construction scheme module 620 is connected with a construction scheme examining module 630, and the construction scheme examining module 630 is used for conducting security examination on construction precaution. The engineering pause module 610 pauses construction through the verification of the engineering pause command, when the process unit 20 approves the quality outline, the system automatically generates an approval process based on the approval process module, approval process node personnel approve the engineering pause command, if the approval personnel disagree, refute comments and return operation can be filled, the returned engineering pause command can be modified and uploaded again, the modified engineering pause command can be submitted for approval again, the process approval personnel can delegate the approval task to other people for approval, the system generates a corresponding electronic signature or seal according to the internal approval result, and the electronic signature or seal is reflected in the engineering pause command form, the approved engineering pause command needs to be transmitted to the participating party, and the engineering pause module 610 only conducts pause approval declaration on the construction scheme.

Referring to fig. 5, the daily management unit 70 includes an entry meeting management module 710, a staff checking module 720, a hidden danger checking module 730, an equipment entry management module 740, and a project stop and rework management module 750. The entrance and return management module 710 is used for managing entrance and return cultivation, the output end of the entrance and return management module 710 is connected with a staff checking module 720, the staff checking module 720 is used for checking the qualification of three types of staff, the hidden danger checking module 730 is used for detecting the daily hidden danger and the special hidden danger in a field, the equipment entrance management module 740 is used for managing the entrance of construction equipment, and the engineering stop and return management module 750 is used for managing the stop and return of work of a work body.

The nuclear power supervision analysis system based on the big data further comprises a three-class personnel checking information management interface, and a professional supervision engineer inputs three-class personnel checking information in the three-class personnel checking information management interface of the system or selects an importing function to import three-class personnel checking information files into the system. The three types of personnel checking information management interfaces have basic functions of creating, editing, deleting and the like. No matter manual input or a tool for importing three types of personnel checking information is adopted, the system needs to check repeated data, in the importing process, the system needs to verify the validity and the compliance of all data in an imported file, once a certain piece of data is found to be wrong, the system does not execute subsequent operation and directly pops up a corresponding error prompt, and the error prompt needs to clarify the position (which row and column) and the reason of the error. And when the qualification of the personnel is due, the system sends a reminding notice to the related personnel or the interface person.

The project stopping and resuming management module 750 is used for personnel and equipment power supply, wage and safety management of stopping and resuming work, the entering and returning management is mainly implemented by internal cultivation during entering, and internal training materials, safety responsibility, JYK examination responsibility and first construction site meeting are required to be uploaded to the entering and returning management after training.

Further, the hidden danger checking module 730 includes special checking, specifically including contents such as checking schemes and checking standards, and a professional supervision engineer uses a new function in a special hidden danger management interface, so that a special hidden danger form can be filled according to on-site checking result information, and modification and tracing of hidden dangers can be realized through checking and approval. And the management module is used for checking and approving the safe entry of the equipment, reserving the equipment data and tracing the data of the handling personnel when the equipment enters the field.

Referring to fig. 6, the output ends of the construction management unit 60 and the daily management unit 70 are connected to the quality management unit 80, the quality management unit 80 is used for evaluating and managing the design quality, the output end of the quality management unit 80 is connected to the safety supervision unit 810 and the cost management unit 820, the safety supervision unit 810 is used for tracking the supervision trajectory of the supervision personnel, and the cost management unit 820 is used for managing the cost amount.

The quality management unit 80 comprises an acceptance sheet reporting module 801, a design change module 802, a quality control sheet module 803 and a nuclear power safety evaluation module 804, wherein the acceptance sheet reporting module 801 is connected with an output end of the safety supervision unit 810, the acceptance sheet reporting module 801 and the quality control sheet module 803 are used for summarizing construction acceptance sheets and judging acceptance quality, the design change module 802 is used for changing design notification, and the nuclear power safety evaluation module 804 is used for performing quality safety evaluation on nuclear power equipment.

Specifically, the quality control order module 803 includes a quality control order creation process and an approval process, where the quality control order creation process is provided with a quality control order management interface corresponding to the big data-based nuclear power supervisory analysis system, and a supervisory engineer may enter the quality control order management interface to create a quality control work contact order/quality problem record order, and during creation, detailed information of the quality control work contact order/quality problem record order needs to be filled in to complete creation of a corresponding quality control order. The supervision engineer can also import the quality control list into the management interface of the quality control list. In the importing process, the system needs to verify the validity of all data in the imported form, if a certain quality control sheet data is found to be wrong, for example, a certain necessary filling column does not fill content, a quality control sheet coding format is wrong, a corresponding file cannot be found in an attachment path, and the like, the system does not perform subsequent operation, directly pops up a corresponding error prompt, and the error prompt needs to specify the position of the error, for example, which row and column of the several rows, and prompts the reason of the error. If all data in the table pass the verification, the system needs to search whether a corresponding quality control order exists in the system according to the quality control order number of each quality control order data in the imported table, if so, the attribute of the corresponding quality control order in the system is updated, otherwise, a new quality control order is created according to the data in the imported table. After the quality control order in the system is newly built or updated, the accessories are uploaded to the system from the local according to the accessory path of the corresponding quality control order in the table, and the accessories are associated with the quality control order. When the quality control single data is imported through the form, the quality control single data receiving service of the system needs to be called for realization, so that corresponding functional logics are unified.

The types of quality control sheets include: quality control work contact sheet/quality problem record sheet. The quality control order code is automatically generated by the system, and when the quality control order is established, a user can upload related accessories of the quality control order for the quality control order. The examination and approval process of the quality control list comprises the following steps: and submitting the quality control order by a compiler of the quality control work contact list/quality problem record list, then selecting an approval person of a subsequent process node, and starting an approval process. And the subsequent nodes finish corresponding tasks to be handled in the system in sequence until the quality control list approval process node is closed. It should be noted that, in the whole examination and approval process of the quality control order, the responsible person of the process node can reject the task to be handled to the initiator of the quality control order, and the initiator can modify/delete the quality control order according to the rejection opinions. In the process of approval, the step of formulating the rectification measures needs to fill the rectification measures for the quality control sheet, the step of initiating verification closing needs to upload a closing verification accessory of the quality control sheet, and the supervision party verifies that the step of closing needs to fill the verification closing for the quality control sheet.

Referring to fig. 7, the construction cost management unit 820 further includes a payment certificate module 8210 and a cost information module 8220, wherein the payment certificate module 8210 is used for obtaining payment information, and the cost information module 8220 is used for making statistics on construction cost data and real-time engineering cost statistics.

In the actual process, the supervisor already obtains the engineering construction contract information signed by the owner and the general package and has collected the contract execution information, the cost engineer enters the contract execution information in a contract execution information management interface in the system, or selects an import function to import the contract execution information file into the system. The contract execution information management interface has basic functions of creating, editing, deleting and the like, and the system needs to check repeated data no matter manual entry or import of contract execution information by an import tool is adopted. In the importing process, the system needs to verify the validity and the compliance of all data in the imported file, once some data is found to be wrong, the system does not execute subsequent operation, corresponding error prompts are directly popped up, and the error prompts need to clarify the position of the mistake, such as which row and column in several rows and prompt the reason of the mistake.

The system can automatically generate an approval process based on the manufacturing cost management unit 820, approve the payment certificate, if the approval personnel disagree, fill in the refusal opinion and complete the return operation, and can modify the returned payment certificate, and the modified payment certificate can be submitted for approval again. The system generates a corresponding electronic signature or seal according to the internal approval result of supervision, and the electronic signature or seal is embodied in a payment certificate form. The cost information module 8220 counts the construction cost data by acquiring the construction investment information acquired by the manager and the collected cost usage information, and performs real-time construction cost statistics. The fee information module 8220 needs to maintain a real-time update status.

Referring to fig. 8, the security supervision unit 810 includes a behavior tracking module 8110, a log establishing module 8120, and a side station recording module 8130, the behavior tracking module 8110 is used for tracing the track of the person to be established, the supervision log unit is used for counting the quality supervision data, and the side station recording module 8130 is used for recording the workload of the supervision person.

Namely, the system includes the operation interface of action tracing, log establishment, side station record, etc., professional supervision engineer or conference enters the management interface of the system action tracing module 8110, creates the topic tracing implementation situation table, the related personnel and responsible person of each action item need to be selected when creating, the side station record module 8130 corresponds to the record personnel, the type of the supervision log module includes personal log and group log, the manager needs to create the folder according to the project group, the manager needs to select the group member and appoint a responsible person when creating, each supervision person can only be in one group at the same time, the responsible person can create the group log, if the group log exists at the current date, the system automatically collects the personal supervision log compiled by the group member to the group log, and marks the record person at the end of each record in the group log, the record person is automatically generated by the system according to the account number for compiling the personal log, the system automatically generates an attachment for a group log generated on the same day every day, when the attachment is generated, the system needs to add an electronic signature to a group member which records a supervision log at the tail of the supervision log attachment, the system needs to automatically record the cancel work of each supervision user, the quality control sheet initiates, checks and verifies the work, the construction scheme checks the work, the work of initiating, checking and the like of a non-conforming item notice sheet into the supervision log on the same day, a manager and all members in a group can click and edit the supervision log to modify, the week, the weather, the temperature and the date are associated, the system automatically generates week, weather and temperature information after the supervision engineer fills the day, and the information is manually input into the system by a system manager.

To sum up, the nuclear power supervision analysis system based on big data provided by the invention realizes generation of the document number of the document letter through the designed document number generation unit 40, realizes rapid tracing and positioning of the document circulation channel through production of the document number, and can send out the corresponding document number to realize the checking function when the construction process of the flow unit 20 generates service interaction, thereby meeting the safety requirement of nuclear power supervision, and the flow unit 20 can monitor the nuclear power construction process and can realize quality supervision of the whole process of the scheme by matching with the document number generation unit 40.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A nuclear power supervision analysis system based on big data is characterized by comprising:

the supervisor management unit is used for managing the qualification audit of the supervisor;

the output end of the supervision personnel management unit is connected with the flow unit, and the flow unit is used for judging the quality of the nuclear power construction flow;

the output of flow unit is connected with letter management unit, letter management unit is used for auditing the management to the construction flow file, letter management unit's output is connected with originating number generation unit, originating number generation unit is used for generating the flow check code.

2. The big data-based nuclear power supervision analysis system according to claim 1, wherein the supervisor management unit comprises a qualification evaluation module for evaluating the qualification of the supervisor;

the output end of the qualification evaluation module is connected with an authorization module, and the authorization module is used for authorizing the personnel who evaluate the qualification in the qualification evaluation module.

3. The big data-based nuclear power supervision and analysis system according to claim 1, wherein the flow unit comprises an organization module, a personnel information module, a quality outline module and an approval module;

the organization mechanism module and the personnel information module are used for counting and tracing the information of the construction organization mechanism and the construction personnel;

the output end of the quality outline module is connected with the examination and approval module, the quality outline module is used for carrying out design input on the quality outline, and the examination and approval module is used for carrying out qualified examination and approval on the quality outline.

4. The big-data-based nuclear power supervision and analysis system according to claim 1, wherein an output end of the flow unit is further connected with a project portal unit, and the project portal unit is used for displaying project information.

5. The big data-based nuclear power supervision and analysis system according to claim 1, wherein the output end of the flow unit is further connected with a construction management unit and a daily management unit, the construction management unit is used for managing construction safety, and the daily management unit is used for checking construction daily staff and hidden dangers.

6. The big-data-based nuclear power supervision and analysis system according to claim 5, wherein the construction management unit comprises an engineering pause module, an input end of the engineering pause module is connected with an output end of the flow unit, and the engineering pause module is used for pausing the construction which is not approved;

the output end of the project pause module is connected with a construction scheme module, the construction scheme module is used for simulating and updating a construction scheme, the output end of the construction scheme module is connected with a construction scheme examination module, and the construction scheme examination module is used for carrying out security examination on construction precaution.

7. The big data-based nuclear power supervision and analysis system according to claim 5, wherein the daily management unit comprises an entrance and bottom crossing management module, a personnel checking module, a hidden danger checking module, an equipment entrance management module and an engineering stop and rework management module;

the system comprises an entrance and closing management module, a staff checking module, a hidden danger checking module, an equipment entrance management module and an engineering stop and re-work management module, wherein the entrance and closing management module is used for managing entrance internal cultivation, the output end of the entrance and closing management module is connected with the staff checking module, the staff checking module is used for checking the qualification of three types of staff, the hidden danger checking module is used for detecting daily hidden dangers and special hidden dangers in a field, the equipment entrance management module is used for managing the entrance of construction equipment, and the engineering stop and re-work management module is used for managing the stop and re-work of a work object.

8. The big data-based nuclear power supervision and analysis system according to claim 5, wherein the output ends of the construction management unit and the daily management unit are connected with a quality management unit, and the quality management unit is used for evaluating and managing design quality;

the output of quality management unit is connected with safety supervision unit and cost management unit, safety supervision unit is used for tracking supervision personnel supervision orbit, cost management unit is used for managing the cost amount.

9. The big-data-based nuclear power supervision analysis system according to claim 8, wherein the quality management unit comprises an acceptance sheet reporting module, a design change module, a quality control sheet module and a nuclear power safety evaluation module, the acceptance sheet reporting module is connected with an output end of the safety supervision unit, the acceptance sheet reporting module and the quality control sheet module are used for collecting construction acceptance sheets and judging acceptance quality, the design change module is used for changing design notification, and the nuclear power safety evaluation module is used for performing quality safety evaluation on nuclear power equipment.

10. The big data-based nuclear power supervision and analysis system according to claim 8, wherein the construction cost management unit comprises a payment certificate module and a cost information module, the payment certificate module is used for obtaining payment information, and the cost information module is used for carrying out statistics on construction cost data and real-time construction cost statistics;

the safety supervision unit comprises an action tracking module, a log establishing module and a side station recording module, wherein the action tracking module is used for tracing the track of the person to be established, the supervision log unit is used for counting quality supervision data, and the side station recording module is used for recording the workload of supervision persons.

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