CN111210148A - Nuclear power station work order work hour management system and method - Google Patents

Abstract

The invention relates to the technical field of informatization construction, in particular to a work order and work hour management system and a work order and work hour management method for a nuclear power station. The work order working hour verification system verifies the work order data formulated by the work order formulation system through the work station worker attendance system and the work station monitoring system, so that the real-time monitoring of the field information of each work station of the nuclear power station and the supervision of the operation equipment required by each work station are realized, the safe operation of the unit equipment of the nuclear power station can be ensured, and the safety of the workers of the nuclear power station can also be ensured.

Description

Nuclear power station work order work hour management system and method

Technical Field

The invention relates to the technical field of informatization construction, in particular to a work order work hour management system and method for a nuclear power station.

Background

The nuclear power station work order and work hour management system is an important component of a nuclear power station safety operation management and control system, namely workers required by daily safety operation of the nuclear power station need to be managed and controlled, and temporary workers required by regular overhaul of the nuclear power station also need to be managed. However, in the existing management mode, when the budget of the manual settlement cost of the overhaul of the nuclear power station is calculated, the access is large, so that the settlement amount of each round of overhaul exceeds the budget. The reason is that the existing management mode can not adapt to and meet the requirements of the existing lean management, only qualitative speculation can be carried out on existing problems, and effective quantitative analysis, monitoring and accurate prediction can not be carried out, so that the problems that the major repair budget can not be accurately formulated, the cost control capability of the major repair project process is lacked, the settlement process can not reach the lean management and the like exist for a long time. Furthermore, because the real-time monitoring of the field information and the management and control of the station labor tools are lacked, the personnel safety and the safe and stable operation of the unit bring safety hidden troubles.

Disclosure of Invention

The invention mainly solves the technical problem that the work order and work hour management system of the nuclear power station in the prior art cannot realize monitoring management.

According to a first aspect, an embodiment provides a nuclear power plant work order labor hour management system, including:

the work order making system is used for making and outputting work order data according to production links in the factory area of the nuclear power station; the work order data comprises station type information, station worker information, station work area information, station work equipment information and/or station work time information required by the production link;

the work station worker attendance system is used for recording attendance data; the attendance data comprises the time for the station worker to enter and exit the plant area of the nuclear power station and/or the time for the station worker to enter and exit the working area of the station;

the station monitoring system is used for acquiring station monitoring data; the station monitoring data comprises station worker information and/or station working equipment information in each station working area in the nuclear power station plant;

and the work order working hour verification system is used for judging whether the attendance data and the station monitoring data are consistent with the work order data or not so as to monitor the operation process of the production link in the factory of the nuclear power station.

And the work order working hour warning system is used for giving an alarm when the work order working hour verification system judges that the attendance data and the station monitoring data do not accord with the work order data.

The work order working hour statistical system is used for acquiring reference data for working order working hours according to the monitoring data and using the reference data as reference data for the work order working hour data set by the work order setting system; the work order working hour reference data comprises time information of each station worker entering and exiting a station working area, time information of each station worker entering and exiting a nuclear power station plant area and/or station working equipment information; the station work equipment information includes operator information of the station work equipment.

Further, the station monitoring system comprises a plurality of worker input devices, and the worker input devices are used for acquiring work order data information related to workers by identifying station cards of the workers and/or biological characteristics of the workers; the station card comprises a station card number which is an identification number of workers in a plant area of the nuclear power station, and each worker has a unique identification number for distinguishing the identity of the worker; and/or each station working area at least comprises one worker entering device, and the station monitoring system distinguishes the station working areas through the worker entering devices; and/or each station card only corresponds to one piece of work order information.

Further, the work order working hour statistical system is also used for acquiring a station card single identification time overlong statistical report, a non-login statistical report when the work order is closed, a non-logout statistical report when the work order is closed, a non-coincidence statistical table of a station working time period and the work order and/or a non-coincidence statistical table of a station working area and the work order according to the monitoring data; the station card single identification time overlength statistical form is used for recording data information that the time of entering the equipment identification station card by the worker is greater than a preset time, and the data information comprises station card number information, the time of identifying the station card and/or the equipment information entered by the worker; the non-login statistical report when the work order is closed is used for recording the information that the station card which is to be logged in when any work order is finished is not logged in the station card of the worker input equipment, and the information comprises the information of the non-login station card number, the work order closing time and/or the information of the worker input equipment; the work order closing working hour un-login statistical report is used for recording the work station card information that the work station card which is to be logged out does not log out of the worker input equipment when any work order is finished, and the work station card information comprises un-login work station card number information, work order closing time and/or worker input equipment information; the station work time period and work order non-conformity statistical table is used for recording station card information of the worker, the station card information of which the login and/or logout time is not consistent with the preset time in the work order, and the station card information comprises login and logout station card number information, work order information and/or worker input equipment information; the station work area and work order non-conformity statistical table is used for recording station card information of the worker who logs in and/or logs out the station card of the worker and the work order preset station card non-conformity, and the station card information comprises login and login station card number information, work order information and/or work order entry equipment information.

The system further comprises an access control management system, which is used for carrying out access control management on workers entering and exiting the nuclear power station factory; the access control management system is also used for acquiring the work order data and checking the workers entering and exiting the nuclear power station plant area according to the station worker information of the work order data; and/or the access control management system is also used for recording the information of the staff who enter and exit the nuclear power station plant area and the time information of the staff entering and exiting the nuclear power station plant area, and sending the information to the station monitoring system.

Further, the station monitoring system further comprises a station working equipment monitoring device used for carrying out identity verification on a user of the station working equipment according to the station working equipment information of the work order data.

The system further comprises a work day making system which is used for making planned work order data of the standard working day and/or the overhaul standard working day according to the plan of the standard working day and/or the overhaul standard working day of the nuclear power station plant; and the work order working hour verification system monitors the working process of the production link in the factory of the nuclear power station according to the planned work order data of the standard working day and/or the overhaul standard working day.

Further, the workday management system is also used for acquiring the actually finished workday data of the standard workday and/or the overhaul standard workday of the factory area of the nuclear power station from the workday work order checking system, comparing the actually finished workday data with the planned workday data, and taking the comparison result as the formulation reference of the planned workday of the new standard workday and/or the overhaul standard workday.

According to a second aspect, another embodiment provides a method for managing work order hours of a nuclear power plant, including:

formulating and outputting work order data according to production links in a plant area of the nuclear power station; the work order data comprises station type information, station worker information, station work area information, station work equipment information and/or station work time information required by the production link;

acquiring attendance data; the attendance data comprises the time for the station worker to enter and exit the plant area of the nuclear power station and/or the time for the station worker to enter and exit the working area of the station;

acquiring station monitoring data; the station monitoring data comprises station worker information and/or station working equipment information in each station working area in the nuclear power station plant;

and judging whether the attendance data and the station monitoring data are consistent with the work order data or not so as to monitor the operation process of the production link in the plant area of the nuclear power station.

The nuclear power station work order man-hour management system and method according to the embodiment comprise a work order formulation system, a work station worker attendance system, a work station monitoring system and a work order man-hour verification system. The work order working hour verification system verifies the work order data formulated by the work order formulation system through the work station worker attendance system and the work station monitoring system, so that the real-time monitoring of the field information of each work station of the nuclear power station and the supervision of the operation equipment required by each work station are realized, the safe operation of the unit equipment of the nuclear power station can be ensured, and the safety of the workers of the nuclear power station can also be ensured.

Drawings

FIG. 1 is a schematic structural diagram of a work order labor hour management system in a nuclear power plant according to an embodiment;

FIG. 2 is a schematic diagram of a station worker entry device interface of the station monitoring system in one embodiment;

FIG. 3 is a data flow diagram of a workday system in accordance with one embodiment;

FIG. 4 is a schematic view of a process flow of the workday making system in one embodiment;

FIG. 5 is a block diagram of a nuclear power plant work order labor hour management system in accordance with an embodiment;

fig. 6 is a flowchart illustrating a method for managing work order labor hours in a nuclear power plant according to an embodiment.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

In the embodiment of the invention, the work order data is formulated and output according to the production link in the plant area of the nuclear power station, the attendance data and the station monitoring data are acquired, and the attendance data and the station monitoring data are compared with the formulated work order data to verify the station information of each station in the plant area of the nuclear power station, so that the monitoring of each operation process of the production link in the plant area of the nuclear power station is realized, and the personnel safety and the unit safety operation of the plant area of the nuclear power station are ensured.

Example one

Referring to fig. 1, a schematic structural diagram of a work order work hour management system of a nuclear power plant in an embodiment includes a work order formulation system 10, a work station staff attendance system 20, a work station monitoring system 30, and a work order work hour verification system 40. The work order making system 10 is used for making and outputting work order data according to production links in a factory of the nuclear power station, wherein the work order data comprises station type information, station staff information, station working area information, station working equipment information and/or station working time information required by the production links. The station worker attendance system 20 is used for recording attendance data, and the attendance data comprises the time for the station workers to enter and exit the nuclear power station plant area and/or the time for the station workers to enter and exit the station work area. The station monitoring system 30 is configured to obtain station monitoring data, where the station monitoring data includes information of station workers and/or information of station working devices in each station working area in the plant area of the nuclear power plant. The work order working hour verification system 40 is used for judging whether the attendance data and the station monitoring data are consistent with the work order data or not so as to monitor the operation process of the production links in the factory area of the nuclear power station. In one embodiment, the work order labor hour management system of the nuclear power plant further includes a work order labor hour alarm system 70 for giving an alarm when the work order labor hour verification system 40 determines that the attendance data and the station monitoring data do not match the work order data. In an embodiment, the nuclear power station work order man-hour management system further includes a work order man-hour statistical system 50, configured to obtain reference data for setting up work order man-hour according to the monitoring data, so as to serve as reference data for setting up work order data by the work order setting system, where the reference data for work order man-hour includes time information for each station worker to enter and exit a station work area, time information for entering and exiting a nuclear power station plant area, and/or information of station work equipment, and the information of station work equipment includes operator information of the station work equipment. The work order working hour statistical system 50 is also used for periodically counting the work order information related to the work station card of each work station worker as the basis of the performance assessment of the work station worker.

In one embodiment, workstation monitoring system 30 includes a plurality of worker-entry devices for obtaining work order data information associated with a worker by identifying the worker's workstation card and/or the worker's biometric characteristic. The station card comprises a station card number which is an identification number of workers in a plant area of the nuclear power station, and each worker has a unique identification number and is used for distinguishing the identity of the worker. In one embodiment, each work station card corresponds to only one piece of work order information. Each station working area at least comprises one worker entering device, and the station monitoring system distinguishes the station working areas through the worker entering devices. Every staff types into equipment and all has unique equipment number, and every station work area sets up the staff of fixed quantity and serial number and types into equipment, types into the serial number of equipment through the staff, confirms that the staff types into the station work area that the station card that equipment was typed into is located, and then can be used for verifying the individual staff information that this work area got into.

Referring to fig. 2, an interface schematic diagram of a station worker input device of a station monitoring system in an embodiment is shown, where the station worker input device obtains station worker information, station information, and work order information of a station worker through a station card identifying the station worker. Each station worker scans the work order bar code and/or the two-dimensional code information on the station card of the worker on the interface of the worker input device to complete the login and logout operation, and the method is simple, convenient and fast and provides objective and accurate data support for cost management. The two-dimensional code information on the station card comprises an identification number of a station operator. In practical application, after the code is scanned and information is swiped in front of the worker input device by each station worker, the worker input device sends the acquired card swiping information to a server of the station monitoring system 30, wherein the card swiping information includes but is not limited to station card number information, biological characteristic information of the card swiping personnel, work order information and card swiping time, the process of field work day data recording can be simplified, the collection of field work day information is standardized, human intervention factors are reduced, the data accuracy is improved, the collected work day data is more complete, more precise and more accurate, and the coverage personnel are wider. When the work order or the station card is swiped, the work order working hour management system judges whether the serial numbers of the work order and the worker input equipment of the current station working area are consistent, if the serial numbers are inconsistent, the work order working hour alarm system 70 carries out alarm prompt and prevents the work order working hour from being input, and then a hard barrier for preventing the work order working area from being mistakenly input is established. The work order working hour management system is convenient for on-site supervisors to patrol, manage and supervise and the communication and coordination among all professionals, can display the on-site working condition in real time, provides accurate information for managing patrol and supervision, and can carry out work with pertinence. Moreover, the on-site worker input device can acquire the personnel information of the work area of the station, and the confirmation of the patrol personnel is facilitated. For example, the steam turbine factory building is equipped with a plurality of staff and types the device at different heights, and the personnel of patrolling can type the device at any staff and see the staff information in the whole steam turbine factory building. In an embodiment, the workstation monitoring system 30 further includes a workstation operating device monitoring apparatus, which is used for performing identity verification on a user of the workstation operating device according to the workstation operating device information of the work order data.

In an embodiment, the work order working hour statistical system 50 is further configured to obtain a station card single-time identification time ultra-long statistical form, a work order non-login statistical form when the work order is closed, a work order closing working hour non-login statistical form, a station working time period and work order non-compliance statistical form and/or a station working area and work order non-compliance statistical form according to the monitoring data. The station card single-identification-time overlong statistical form is used for recording data information of a condition that the time of entering the equipment identification station card by a worker is greater than a preset time, and the data information comprises station card number information, time of identifying the station card and/or equipment information entered by the worker. The non-login statistical report when the work order is closed is used for recording the work station card information of the non-login worker input equipment of the work station card which is to be logged in when any work order is finished, and the non-login work station card information, the work order closing time and/or the worker input equipment information are/is included. The work order closing man-hour non-login statistical report is used for recording the work station card information of the work station card non-login worker input equipment which is to be logged out when any work order is finished, the work station card information comprises the non-login work station card number information, the work order closing time and/or the work worker input equipment information, for example, when a certain worker is found not to be swiped out after the work order is swiped in, the access control system displays that the worker leaves the work station work area, the worker is considered to be not matched, statistics is carried out, and a report is generated. The station work time period and work order non-conformity statistical table is used for recording station card information of a worker, wherein the station card information comprises login and logout station card number information, work order information and/or worker input equipment information, and the login and logout time of the station card input equipment of the worker is not consistent with the preset time in the work order. The station activity area and work order non-conformity statistical table is used for recording station card information of a worker who logs in and/or out of equipment and the work order preset station card non-conformity, and the station card information comprises login and logout station card number information, work order information and/or worker logging equipment information.

In an embodiment, the nuclear power plant work order management system further includes an access control management system, which is used for performing access control management on workers entering and exiting the nuclear power plant area. The access control management system is further used for acquiring the work order data and checking the workers entering and exiting the nuclear power station plant according to the station worker information of the work order data. The access control management system is also used for recording the information of the staff who enter and exit the factory area of the nuclear power station and the time information of the staff entering and exiting the factory area of the nuclear power station and sending the information to the station monitoring system.

The nuclear power station work order man-hour management system in the embodiment comprises a work order formulation system, a work station worker attendance system, a work station monitoring system and a work order man-hour verification system. The work order working hour verification system verifies the work order data formulated by the work order formulation system through the work station worker attendance system and the work station monitoring system, so that the real-time monitoring of the field information of each work station of the nuclear power station and the supervision of the operation equipment required by each work station are realized, the safe operation of the unit equipment of the nuclear power station can be ensured, and the safety of the workers of the nuclear power station can also be ensured.

In an embodiment, the work order management system of the nuclear power plant further includes a work day making system, configured to make planned work order data of the standard work day and/or the overhaul standard work day according to a plan of the standard work day and/or the overhaul standard work day of the plant area of the nuclear power plant. And the work order working hour verification system monitors the working process of the production link in the factory area of the nuclear power station according to the planned work order data of the standard working day and/or the overhaul standard working day. In an embodiment, the work day management system is further configured to obtain, from the work order work hour verification system, work order data actually completed on a standard work day and/or a major repair standard work day of the plant area of the nuclear power plant, compare the work order data with planned work order data, and use a comparison result as a reference for making a planned work order for a new standard work day and/or a major repair standard work day. Referring to fig. 3, a data flow diagram of a workday management system in an embodiment is shown, in which SAP is a workday creation system and DTMS is a work order work hour verification system. The working day making system firstly generates a standard working day library, and the standard working day library is used for counting and summarizing the working orders of a plurality of nonstandard working days to generate a daily working order database. And processing the data of the standard workday library according to a preset standard, such as importing or upgrading the existing historical data, adding or deleting the data of the standard workday library, filing the acquired data and/or counting the changed data in the standard workday library. And processing the standard workday library according to a preset data statistical processing method to generate the planned workday data of the standard workday. And verifying the planned work order data by manually calling a mode of setting an important work order and/or monitoring the important work order in a key mode so as to correct the planned work order data generated by the estimated work order work day. And meanwhile, matching the generated planned work order data with the work order data managed by the preventive project work day, and supplementing the predictive data of the preventive work order work day into the planned work order data to obtain the planned work order data after the preventive project is supplemented. And taking the planned work order data after the preventive project is supplemented as reference, and generating planned work order data of a standard working day by taking the planned work order data generated on the estimated work order working day after correction as reference. The generation process of the planned work order data of the overhaul standard workday is the same as that of the planned work order data of the standard workday, and is not repeated here. The overhaul forecast cost change table shown in fig. 3 is obtained by comparing the planned work order data of the overhaul standard working day with the work order data verified on the actual work order working day, and then counting the difference in the comparison result. The major repair day settlement table is obtained by counting the working hours in the work order data verified according to the actual work order work day of the major repair standard work day. The work order operation classification management report is obtained by counting planned work order data and/or work order data verified by actual work order work days according to a preset classification mode. The pre-estimation, actual and settlement comparison table is obtained by counting the planned work order data and/or the work order data verified on the actual work order work day according to a preset settlement mode.

Referring to fig. 4, a schematic diagram of a management process of the workday making system in an embodiment is shown, in which a standard workday library of the workday making system is maintained by a professional, and a preventive and a corrective work order are periodically generated. The preventive work order is a work order made according to stations required by the work day management of preventive projects, for example, on the preventive hydropower overhaul work day of the nuclear power station, the work order information of maintainers required by the preventive hydropower overhaul work day needs to be added, and the preventive work order can be automatically generated according to statistics in historical past records or can be manually added by professional maintainers according to temporary change needs. The corrective work order is used for correcting the work order data generated again by the error work order automatically generated in the past. The work order work day estimation management is to verify the generated preventive work order data and the corrective work order data and the work order data verified by the actual work order work day, generate a preventive work order report and a corrective work order report for monitoring and analysis after verification and verification, and feed back the preventive work order data and the corrective work order data after verification and verification to a standard day library to be used as a reference of newly generated work order data.

Referring to fig. 5, a data flow diagram of an embodiment of a work order work hour verification system is shown, in which a work day making system loads work order data verified on an actual work order work day into a standard day library in an importing or upgrading manner, so that on one hand, a preventive work order is generated by automatically calling a preset maintenance plan, and on the other hand, the work order data is monitored by manually inputting reference values and/or directly calling key work orders to confirm that the work order data is correct, the work order data generated by the standard work day library is respectively subjected to deviation analysis with the work order data of the work day after the work order is verified and the work order data of the actual work hour of the work order, the work order data after the deviation analysis is fed back to the standard work day library through a work day making system, the standard work and day library is continuously improved, and the purpose of improving the accuracy of the work order data generated by the standard work and day library is further achieved. The work day making system in the embodiment of the application is centrally managed by the work order work hour management system of the nuclear power station, the access authority of a standard work day library can be defined according to the user role of a manager, and professional personnel can perform daily operation and maintenance. In an electronic management mode, the standard workday library can realize convenience and accuracy of edition upgrading, tracing and comparison. For preventive work orders, the work content of the same maintenance project is basically consistent, so the standard work day of such work orders needs to be standardized. The system provides a standard work day tool for centralized management of maintenance projects, so that the standard work day of the maintenance projects can be automatically referred after the preventive work order is created. The work order working hour verification system provides the functions of online individual maintenance and batch work order pre-estimation work day import, and for a preventive work order, the system automatically pre-estimates the work day according to the maintenance plan and the maintenance project suggestion. The standard work day can be manually maintained for the corrective work order, so that the generation channel of the abnormal work order can be realized. The work order working hour verification system can issue a statistical analysis report form in real time, for example, a nuclear power station overhaul work day estimation statistical form is generated, work orders of which the work day is not estimated yet under the state of an appointed work order or work orders of which the estimated work day is inconsistent with the standard work day can be regularly inquired according to all inquiry conditions, and the efficiency of identifying the non-standard work order is improved. The work order working hour verification system can also provide a nuclear power station overhaul daily clear report, monitor the state change condition of the work order and the spare part receiving condition on the same day, integrally control the work day pre-estimation and spare part reservation states of the current non-working, working and finished work orders, and have global control on the overhaul cost consumption state. Data support is provided for immediate clearing, immediate closing and no cost prediction. The work order working hour verification system can also provide a predicted cost change table of the work orders of the nuclear power station, and the work orders are used for major repair and financial departments to refer by comparing and analyzing the change conditions of major repair work days and spare part reserves in the period, and the work orders are generated in certain major repair periods, for example, the cost exceeds the range. The work order working hour verification system can also provide a work order work day work classification management report form, and supports flexible business to integrate all work orders in a overhaul period into a plurality of work types in a plurality of division modes, thereby providing data for corresponding work cost benchmarks in the same industry.

Example two

Referring to fig. 6, a flow chart of an embodiment of a method for managing work order labor hours in a nuclear power plant is schematically shown, including:

step one, a work order is made.

And formulating and outputting work order data according to a production link in a factory of the nuclear power station, wherein the work order data comprises station type information, station worker information, station working area information, station working equipment information and/or station working time information required by the production link.

And step two, acquiring attendance data.

And monitoring the time for the station staff to enter and exit the plant area of the nuclear power station and/or the time for the station staff to enter and exit the working area of the station to acquire attendance data.

And step three, acquiring station monitoring data.

And monitoring station worker information and/or station working equipment information in each station working area in the nuclear power station plant area to obtain station monitoring data.

And step four, judging whether the work order conforms to the work order.

And judging whether the attendance data and the station monitoring data are consistent with the work order data or not so as to monitor the operation process of the production link in the plant area of the nuclear power station.

Those skilled in the art will appreciate that all or part of the functions of the various methods in the above embodiments may be implemented by hardware, or may be implemented by computer programs. When all or part of the functions of the above embodiments are implemented by a computer program, the program may be stored in a computer-readable storage medium, and the storage medium may include: a read only memory, a random access memory, a magnetic disk, an optical disk, a hard disk, etc., and the program is executed by a computer to realize the above functions. For example, the program may be stored in a memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above may be implemented. In addition, when all or part of the functions in the above embodiments are implemented by a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and may be downloaded or copied to a memory of a local device, or may be version-updated in a system of the local device, and when the program in the memory is executed by a processor, all or part of the functions in the above embodiments may be implemented.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. A nuclear power station work order man-hour management system is characterized by comprising:

the work order making system is used for making and outputting work order data according to production links in the factory area of the nuclear power station; the work order data comprises station type information, station worker information, station work area information, station work equipment information and/or station work time information required by the production link;

the work station worker attendance system is used for recording attendance data; the attendance data comprises the time for the station worker to enter and exit the plant area of the nuclear power station and/or the time for the station worker to enter and exit the working area of the station;

the station monitoring system is used for acquiring station monitoring data; the station monitoring data comprises station worker information and/or station working equipment information in each station working area in the nuclear power station plant;

and the work order working hour verification system is used for judging whether the attendance data and the station monitoring data are consistent with the work order data or not so as to monitor the operation process of the production link in the factory of the nuclear power station.

2. The management system of claim 1, further comprising a work order man-hour alarm system for issuing an alarm when the work order man-hour verification system determines that the attendance data and station monitoring data do not match the work order data.

3. The management system according to claim 1, further comprising a work order labor hour statistical system for obtaining reference data of work order labor hour making according to the monitoring data as reference data when the work order making system makes work order data; the work order working hour reference data comprises time information of each station worker entering and exiting a station working area, time information of each station worker entering and exiting a nuclear power station plant area and/or station working equipment information; the station work equipment information includes operator information of the station work equipment.

4. A management system according to claim 3, wherein the workstation monitoring system comprises a plurality of worker-entry devices for obtaining work order data information relating to a worker by identifying the worker's workstation card and/or the worker's biometric characteristic; the station card comprises a station card number which is an identification number of workers in a plant area of the nuclear power station, and each worker has a unique identification number for distinguishing the identity of the worker; and/or each station working area at least comprises one worker entering device, and the station monitoring system distinguishes the station working areas through the worker entering devices; and/or each station card only corresponds to one piece of work order information.

5. The management system according to claim 4, wherein the work order working hour statistical system is further configured to obtain a station card single-time identification time ultra-long statistical form, a non-login statistical form when the work order is closed, a non-coincidence statistical form between a station working time period and the work order, and/or a non-coincidence statistical form between a station working area and the work order according to the monitoring data; the station card single identification time overlength statistical form is used for recording data information that the time of entering the equipment identification station card by the worker is greater than a preset time, and the data information comprises station card number information, the time of identifying the station card and/or the equipment information entered by the worker; the non-login statistical report when the work order is closed is used for recording the information that the station card which is to be logged in when any work order is finished is not logged in the station card of the worker input equipment, and the information comprises the information of the non-login station card number, the work order closing time and/or the information of the worker input equipment; the work order closing working hour un-login statistical report is used for recording the work station card information that the work station card which is to be logged out does not log out of the worker input equipment when any work order is finished, and the work station card information comprises un-login work station card number information, work order closing time and/or worker input equipment information; the station work time period and work order non-conformity statistical table is used for recording station card information of the worker, the station card information of which the login and/or logout time is not consistent with the preset time in the work order, and the station card information comprises login and logout station card number information, work order information and/or worker input equipment information; the station work area and work order non-conformity statistical table is used for recording station card information of the worker who logs in and/or logs out the station card of the worker and the work order preset station card non-conformity, and the station card information comprises login and login station card number information, work order information and/or work order entry equipment information.

6. The management system according to claim 4, further comprising an access control system for performing access control management on workers who enter and exit the plant area of the nuclear power plant; the access control management system is also used for acquiring the work order data and checking the workers entering and exiting the nuclear power station plant area according to the station worker information of the work order data; and/or the access control management system is also used for recording the information of the staff who enter and exit the nuclear power station plant area and the time information of the staff entering and exiting the nuclear power station plant area, and sending the information to the station monitoring system.

7. The management system according to claim 4, wherein the workstation monitoring system further comprises a workstation work equipment monitoring device for authenticating a user of the workstation work equipment based on the workstation work equipment information of the work order data.

8. The management system according to claim 3, further comprising a work day making system for making planned work order data of a standard work day and/or a major repair standard work day according to a plan of the standard work day and/or the major repair standard work day of the plant area of the nuclear power plant; and the work order working hour verification system monitors the working process of the production link in the factory of the nuclear power station according to the planned work order data of the standard working day and/or the overhaul standard working day.

9. The management system according to claim 8, wherein the workday management system is further configured to obtain, from the workday work-hour verification system, the workday data actually completed on the standard workday and/or the overhaul standard workday of the nuclear power plant area, compare the obtained workday data with the planned workday data, and use the comparison result as a reference for creating a planned workday for a new standard workday and/or an overhaul standard workday.

10. A nuclear power station work order work hour management method is characterized by comprising the following steps:

formulating and outputting work order data according to production links in a plant area of the nuclear power station; the work order data comprises station type information, station worker information, station work area information, station work equipment information and/or station work time information required by the production link;

acquiring attendance data; the attendance data comprises the time for the station worker to enter and exit the plant area of the nuclear power station and/or the time for the station worker to enter and exit the working area of the station;

acquiring station monitoring data; the station monitoring data comprises station worker information and/or station working equipment information in each station working area in the nuclear power station plant;

and judging whether the attendance data and the station monitoring data are consistent with the work order data or not so as to monitor the operation process of the production link in the plant area of the nuclear power station.

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