JP2019007852A - Management device, method for management, and management program - Google Patents

Abstract

To provide a management device, a method for management, and a management program that can manage and maintain an EQ apparatus appropriately.SOLUTION: A management device 1 according to the present invention includes: an apparatus list database 43 for storing management information of an EQ apparatus set in a facility of a nuclear power station; a display 2 and a printer 3 as output sections for outputting the management information stored in the apparatus list database 43; and a controller 5 for acquiring the management information from the apparatus list database 43 and outputting the information to the display 2 and the printer 3, the apparatus having a resistance property to the temperature and the radiation dose in the environment in which the apparatus is set, and the management information including the resistance property.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a management device, a management method, and a management program.

  It is desirable to properly manage and maintain equipment installed in power plants and water and sewage facilities. An equipment management system that manages equipment in public utilities such as water and sewage and electric power is known (see, for example, Patent Document 1). In the technique described in Patent Document 1, a database construction means is provided by means of an interactive interface with the user, and the number of equipment and facility hierarchy divisions that the user inputs on the interface screen, the name of each division, and the equipment for each division And store data in a structure that hierarchically defines facilities and facilities.

JP-A-11-85261

  Safety electrical / instrumentation equipment (hereinafter referred to as “EQ (Environmental Qualification) equipment”) that is installed in nuclear power plant facilities and requires environmental resistance performance is used by other power plants including thermal power plants, Unlike equipment installed in water and sewage facilities, verification of environmental resistance that can withstand the environment indicated by the temperature and radiation dose at the installation site is required, and it is required to be used within the verification lifetime. Therefore, it is required to manage that the equipment that is required to have the environmental resistance performance of the nuclear power plant is used within the verification lifetime. In addition, it is desirable to manage including environmental information related to environmental performance.

  SUMMARY An advantage of some aspects of the invention is that it provides a management apparatus, a management method, and a management program capable of appropriately managing and maintaining a device.

  The management apparatus of the present invention includes a database that stores management information of EQ equipment installed in a facility of a nuclear power plant, an output unit that outputs the management information stored in the database, and the management information from the database. And a control unit that outputs the output to the output unit, and the device has an environmental resistance performance against the temperature and radiation dose of the environment in which the device is installed, and the management information is It includes the environmental resistance performance.

  According to this configuration, it is possible to appropriately manage and maintain the device.

  In the management apparatus of the present invention, the management information is information on the environment in which the device is installed, calculated based on the environment information including the temperature and radiation dose of the environment in which the device is installed, and the environment information. It is preferable that the lifetime of the apparatus is included. According to this configuration, it is possible to appropriately manage and maintain the management information including the environmental information and the lifetime of the device.

  In the management device of the present invention, the control unit obtains the management information including the lifetime from the database, and indicates a connection state and lifetime between the device and another device connected to the device. It is preferable to output the figure to the output unit. According to this configuration, it is possible to output a conceptual diagram that makes it easy to grasp the connection state and lifetime between the device and another device.

  The management apparatus of the present invention includes an input detection unit that detects a selection operation for the management information output by the output unit, and the management information includes location information in the facility where the device is installed, and the control The unit causes the output unit to output a layout map of the facility including the location information, and when the input detection unit detects a selection operation for the location information in the layout map, relates to the location information from the database. It is preferable that the management information of the device to be acquired is acquired and output to the output unit. According to this configuration, it is possible to easily search for devices via the layout drawing.

  In the management device of the present invention, it is preferable that the management information includes an updater and an update date of the database. According to this configuration, it is possible to easily and accurately explain the validity of the management information of the devices stored in the database.

  The management method of the present invention includes a database generation step for storing management information of EQ equipment installed in a facility of a nuclear power plant in a database, and an output for acquiring the management information from the database and outputting the management information An output step for outputting to the unit, wherein the device has an environment resistance performance against the temperature and radiation dose of the environment in which the device is installed, and the management information includes the environment resistance performance It is characterized by.

  According to this method, it is possible to appropriately manage and maintain the device.

  The management program of the present invention includes a database generation step for storing management information of EQ equipment installed in a facility of a nuclear power plant in a database, and an output for acquiring the management information from the database and outputting the management information An output step for causing the computer to output, wherein the device has an environmental resistance against the temperature and radiation dose of the environment in which the device is installed, and the management information is the environmental resistance It is characterized by including.

  According to this program, it is possible to appropriately manage and maintain the device.

  ADVANTAGE OF THE INVENTION According to this invention, the management apparatus, management method, and management program which can perform management and maintenance of an apparatus appropriately are realizable.

FIG. 1 is a block diagram illustrating an example of a management apparatus according to the present embodiment. FIG. 2 is a data configuration diagram showing an example of the master list database. FIG. 3 is a data configuration diagram showing an example of the environmental measurement result database. FIG. 4 is a data configuration diagram illustrating an example of a device list database. FIG. 5 is a data configuration diagram illustrating an example of the electric device database. FIG. 6 is an explanatory diagram showing an example of a screen for displaying a list of master lists. FIG. 7 is an explanatory diagram showing an example of a screen for displaying a list of environmental measurement results. FIG. 8 is an explanatory diagram showing an example of a screen for displaying a list of device lists. FIG. 9 is an explanatory diagram illustrating an example of a screen that displays a facility data conceptual diagram. FIG. 10 is an explanatory diagram illustrating an example of a screen that displays a layout diagram. FIG. 11 is a flowchart showing an outline of a management method in the management apparatus according to the present embodiment. FIG. 12 is a flowchart showing an outline of a management method in the management apparatus according to the present embodiment. FIG. 13 is a flowchart showing an outline of a management method in the management apparatus according to the present embodiment. FIG. 14 is a flowchart showing an outline of a management method in the management apparatus according to the present embodiment.

  Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings. In addition, this invention is not limited to each following embodiment, It can implement by changing suitably.

  FIG. 1 is a block diagram illustrating an example of a management apparatus according to the present embodiment. The management apparatus 1 is installed in a facility of a nuclear power plant, and manages EQ equipment that is a safety-related electrical / instrumented product that requires environmental resistance performance. The equipment is installed in an area where the accident environment deteriorates at the nuclear power plant. The areas where the accident environment deteriorates are, for example, the inside of the containment vessel and the main steam chamber among the facilities of the nuclear power plant. The equipment includes, for example, a motorized valve driving unit, a cable, a connection box, an electric penetration, and an instrument. The device has environmental resistance to the temperature and radiation dose of the environment in which it is installed. In the present embodiment, the device has environmental resistance performance against the temperature and radiation dose of the environment where it is installed. The management device 1 includes a display (output unit) 2, a printer (output unit) 3, a storage unit 4, and a control unit 5.

  The display 2 displays management information based on a control signal from the control unit 5. The display 2 is, for example, a liquid crystal display (LCD: Liquid Crystal Display), an organic EL display (OELD: Organic Electro-Luminescence Display), or an inorganic EL display (IELD: Inorganic Electro-Luminescence Display). In the present embodiment, the display 2 is a touch panel. The display 2 includes an input detection unit 21 that detects various operations performed on the display 2 with, for example, a finger or a pen. The input detection unit 21 transmits the detected input information to the control unit 5.

  The printer 3 prints management information based on a control signal from the control unit 5. The printer 3 is, for example, an ink jet printer or a laser printer.

  The storage unit 4 stores various programs and various databases used for executing information processing in the control unit 5. In the present embodiment, the storage unit 4 stores a master list database 41, an environmental measurement result database 42, and a device list database 43.

  The master list database 41 will be described with reference to FIG. FIG. 2 is a data configuration diagram showing an example of the master list database. The master list database 41 stores information related to the system. The master list database 41 includes a system 4111, a device name 4112, an installation location 4113, an operation request presence / absence 4114, a request function 4115, necessary electrical / instrumentation 4116, environmental resistance performance verification necessity 4117, a safety importance level 4118 and a function. 4119, presence / absence of related evidence 4120, remarks 4121, registration date 4122, and registrant 4123.

  The system 4111 stores the type of system. In this embodiment, the system 4111 is “primary cooling system”, “chemical volume system”, and “instrumentation related”. The device name 4112 stores the name of the device installed in the system. In the present embodiment, the name of the device includes the equipment number of the device. The installation location 4113 stores the installation location of the device. In the present embodiment, the installation location is a building where the device is installed. The operation request presence / absence 4114 stores the presence / absence of an operation request for the device. The request function 4115 stores a function requested to the device. The necessary electrical / instrumentation 4116 stores devices necessary for mounting the function. In the present embodiment, the devices include devices such as “electric valve driving unit”, “cable”, “junction box”, “electric penetration”, and “instrument”. The environmental performance verification necessity 4117 stores the necessity of environmental resistance verification of the device. The safety importance 4118 stores the safety importance of the function. The function 4119 stores the function of the device. The related evidence presence / absence 4120 stores the presence / absence of evidence of the function including, for example, a system diagram and a test result. When the related evidence presence / absence 4120 is “present”, for example, related evidence data is stored in a file. The remark 4121 stores special notes regarding the function. The registration date 4122 stores the registration date of the management information. The registrant 4123 stores the registrant of the management information.

  The environment measurement result database 42 will be described with reference to FIG. FIG. 3 is a data configuration diagram showing an example of the environmental measurement result database. The environmental measurement result database 42 stores the environmental measurement result in the facility of the nuclear power plant. The environmental measurement result database 42 includes a number 4211, a measurement location 4212, a maximum temperature (° C.) 4213, a minimum temperature (° C.) 4214, an average temperature (° C.) 4215, a temperature seal temperature (° C.) 4216, and a dose rate (mGy / h). 4217, presence / absence of related evidence 4218, registration date 4219, and registrant 4220.

  The number 4211 stores a number that identifies the measurement location. The measurement location 4212 stores location information of a location where environmental measurement is performed. The maximum temperature 4213 stores the maximum temperature at the measurement location. The minimum temperature 4214 stores the minimum temperature at the measurement location. The average temperature 4215 stores the average temperature at the measurement location. The temperature seal temperature 4216 stores the temperature indicated by the temperature seal attached to the measurement location. The dose rate 4217 stores the dose rate at the measurement location. The related evidence presence / absence 4218 stores the presence / absence of evidence of the management information including, for example, a system diagram and a test result. When the related evidence presence / absence 4218 is “present”, for example, related evidence data is saved as a file. The registration date 4219 stores the registration date of the management information. The registrant 4220 stores the registrant of the management information.

  The device list database 43 will be described with reference to FIG. FIG. 4 is a data configuration diagram illustrating an example of a device list database. The device list database 43 stores device management information. The management information includes the equipment number 4311, the name 4312, the devices 4313 to 4319 constituting the equipment, the updater of the device list database 43, and the update date.

  Each device constituting the equipment includes an electric device 4313, a power cable 4314, a power cable connection / field connection box connection 4315, a control cable 4316, a control cable connection / field connection box connection 4317, and an electrical pen terminal box. A connection portion 4318 and an electric penetr 4319 are included.

  The equipment number 4311 stores a number for identifying a device. The name 4312 stores the name of the device. The electric device 4313 stores a pointer to the electric device database 441 constituting the device. The power cable 4314 stores a pointer to a power cable database constituting the device. The power cable connection unit / field connection box connection unit 4315 stores a pointer to a power cable connection unit / field connection box connection unit database constituting the device. The control cable 4316 stores a pointer to a control cable database constituting the device. The control cable connection unit / on-site connection box connection unit 4317 stores a pointer to the control cable connection unit / on-site connection box connection unit database constituting the device. The electric penetrating terminal box connection unit 4318 stores a pointer to the electric penetrating terminal box connecting unit database constituting the device. The electric pene 4319 stores a pointer to the electric pene database constituting the device. The remark 4320 stores special notes regarding the device. The last update date 4321 stores the last update date of the management information. The last update person 4322 stores the last update person of the management information.

  An electric device database 441 is shown as an example in FIG. 5 as each device constituting the facility. The electric device database 441 stores electric device management information. The electric device database 441 includes a model number 4411, a manufacturer 4412, an installation location 4413, an installation environment temperature (° C.) 4414, an installation environment dose (Gy / h) 4415, an installation year 4416, an assumed environment (temperature / dose) 4417, and an evaluation life 4418. And determination 4419, activation energy (kcal / mol · K) 4420, and adaptation 4421.

  The model number 4411 stores the model number of the electric device. The manufacturer 4412 stores the manufacturer of the electric device. The installation location 4413 stores the installation location of the electric device. In the present embodiment, the installation location includes a building and a hierarchy. The installation environment temperature 4414 stores the temperature of the installation environment. The installation environment temperature 4414 is updated after the environment measurement. The installation environment dose 4415 stores the installation environment dose. The installation environment dose 4415 is updated after the environment measurement. The installation year 4416 stores the installation year of the electric device. In other words, the installation year 4416 is a replacement record of the electric device. The assumed environment (temperature / dose) 4417 stores the assumed temperature and dose of the installation environment. The evaluation life 4418 stores the life calculated based on the installation environment. The evaluation life 4418 is updated after the environmental measurement and the device update. The determination 4419 stores the determination for the lifetime. The determination 4419 is updated after the environmental measurement and the device update. In the present embodiment, the determination 4419 stores “◯” when the lifetime is, for example, 5 years or longer. In the present embodiment, the determination 4419 stores “Δ” when the lifetime is, for example, not less than 3 years and less than 5 years. In the present embodiment, the determination 4419 stores “x” when the lifetime is, for example, less than one year. The activation energy 4420 stores activation energy for the material used in the electric device. The conformity 4421 stores whether it conforms to the lifetime and requirements of the electric device. In this embodiment, the conformity 4421 stores “◯” when conforming and “x” when not conforming.

  Returning to FIG. 1, the control unit 5 includes a memory and a CPU. The control unit 5 may be realized by dedicated hardware, or may be realized by loading a program for realizing the function of the control unit 5 into a memory and executing the program. Good. The control unit 5 manages a master list database 41, an environmental measurement result database 42, and a device list database 43. The control unit 5 displays each screen on the display 2 and controls transition between the screens.

  The control unit 5 includes a master list registration unit 51, a master list output unit 52, an environment measurement registration unit 53, an environment measurement output unit 54, a device list registration unit 55, and a device list output unit. 56, a conceptual diagram output unit 57, and an arrangement diagram output unit 58.

  The master list registration unit 51 edits the management information in the master list database 41. Editing includes new registration, editing, and deletion of management information. In the present embodiment, the master list registration unit 51 edits the management information in the master list database 41 based on the input information displayed on the display 2 and input via an information registration screen (not shown). On the information registration screen, each management information of the master list database 41 can be input.

  The master list output unit 52 acquires management information from the master list database 41, generates a master list form, and displays it on the display 2. The master list output unit 52 can set data items included in a form via a form setting screen (not shown). The format of the form to be created is stored in advance in the storage unit 4. The form displayed on the display 2 can be printed by the printer 3.

  The environmental measurement registration unit 53 edits the management information in the environmental measurement result database 42. In the present embodiment, the environmental measurement registration unit 53 edits the management information of the environmental measurement result database 42 based on the input information displayed on the display 2 and input via an information registration screen (not shown). On the information registration screen, management information of the environmental measurement result database 42 can be input.

  The environmental measurement output unit 54 acquires management information from the environmental measurement result database 42, generates a form of the environmental measurement result, and displays it on the display 2. The environment measurement output unit 54 can set data items included in a form via a form setting screen (not shown). The format of the form to be created is stored in advance in the storage unit 4. The form displayed on the display 2 can be printed by the printer 3.

  The device list registration unit 55 edits the management information in the device list database 43. In the present embodiment, the device list registration unit 55 edits management information in the device list database 43 based on input information displayed on the display 2 and input via an information registration screen (not shown). On the information registration screen, management information of the device list database 43 can be input.

  The device list output unit 56 acquires management information from the device list database 43, generates a device list form, and displays it on the display 2. The device list output unit 56 can set data items included in a form via a form setting screen (not shown). The format of the form to be created is stored in advance in the storage unit 4. The form displayed on the display 2 can be printed by the printer 3.

  The conceptual diagram output unit 57 acquires management information from the device list database 43 and outputs a facility data conceptual diagram (conceptual diagram) 110 (see FIG. 9). More specifically, the conceptual diagram output unit 57 obtains management information including the lifetime of the device from the device list database 43, and displays a facility data conceptual diagram 110 indicating the connection state and lifetime between the device and the connected device. It displays on the equipment data conceptual diagram screen 230 (refer FIG. 9).

  The layout drawing output unit 58 outputs the layout drawing 120 (see FIG. 10) of the facility where the equipment is installed. More specifically, the layout drawing output unit 58 can designate the location where the layout map 120 is output via a selection screen (not shown) by building and level. Then, the layout drawing output unit 58 acquires management information including location information from the master list database 41, the environment measurement result database 42, and the device list database 43, and outputs a layout diagram 120 (see FIG. 10).

  The screen 200 will be described with reference to FIG. FIG. 6 is an explanatory diagram showing an example of a screen for displaying a list of master lists. The screen 200 includes a search condition input unit 201, a system display unit 202, and a system list display unit 203. The screen 200 includes a new registration button 200A, a target edit button 200B, a target delete button 200C, a list output button 200D, a facility layout button 200E, and a related device list button 200F.

  The search condition input unit 201 can input a search condition. In the present embodiment, the facility classification, system, device type, device number, and keyword can be specified as the search condition. The facility classification is the classification of the facility where the equipment is installed. As the facility classification, for example, either a design standard accident handling facility or a handling facility such as a serious accident can be designated. The system can specify the system in which the device is installed. The device type can specify the type of device. The device number can specify the device number.

  The system display unit 202 is an area for displaying a list of systems based on the master list database 41.

  The system list display unit 203 is an area that displays management information of systems that satisfy the search condition as a list of master lists based on the master list database 41.

  When the new registration button 200A is pressed, an information registration screen for management information in the master list database 41 is displayed. When the target edit button 200B is pressed in a state where any one of the systems displayed on the system list display unit 203 is selected, an information registration screen for editing the management information of the system is displayed. When the target deletion button 200C is pressed in a state where any one of the systems displayed in the system list display unit 203 is selected, a deletion screen for deleting the management information of the system is displayed. When the list output button 200D is pressed, the master list output unit 52 is activated and the system management information displayed on the system list display unit 203 is output as a form of the master list. When pressed, the facility layout button 200E activates the layout map output unit 58 and displays a layout diagram 120 showing the layout of related devices on the facility layout map display screen 240 (see FIG. 10). When the related device list button 200F is pressed in a state where any one of the systems displayed on the system list display unit 203 is selected, a device list related to the system is displayed on the screen 220 (see FIG. 8) based on the device list database 43. indicate.

  The screen 210 will be described with reference to FIG. FIG. 7 is an explanatory diagram showing an example of a screen for displaying a list of environmental measurement results. The screen 210 includes a search condition input unit 211, a measurement list display unit 212, and a result list display unit 213. The screen 210 includes a new registration button 210A, a target edit button 210B, a target delete button 210C, a list output button 210D, and a facility layout button 210E.

  The search condition input unit 211 can input a search condition. In this embodiment, a facility category, an installation location, and a keyword can be specified as a search condition. The facility classification is the same as the search condition input unit 201 on the screen 200. As for the installation location, the installation location of the device can be specified by the building and the hierarchy via the selection screen.

  The measurement list display unit 212 is an area for displaying a list of environmental measurements based on the environmental measurement result database 42. In this embodiment, a list of periodic inspections for which environmental measurements have been performed is displayed.

  The result list display unit 213 is an area for displaying a list of environmental measurement results that satisfy the search conditions based on the environmental measurement result database 42.

  When the new registration button 210A is pressed, a management information information registration screen of the environmental measurement result database 42 is displayed. The target edit button 210B displays an information registration screen for editing management information of the environmental measurement result when pressed when any environmental measurement result displayed on the result list display unit 213 is selected. When the target deletion button 210C is pressed in a state where any environmental measurement result displayed on the result list display unit 213 is selected, a deletion screen for deleting management information of the environmental measurement result is displayed. When the list output button 210D is pressed, the environment measurement output unit 54 is activated, and the management information of the environment measurement results displayed on the result list display unit 213 is output as a form. The facility layout button 210E has the same function as the facility layout button 200E.

  The screen 220 will be described with reference to FIG. FIG. 8 is an explanatory diagram showing an example of a screen for displaying a list of device lists. The screen 220 includes a search condition input unit 221, a device type list display unit 222, and a device list display unit 223. The screen 220 includes a new registration button 220A, a target edit button 220B, a target delete button 220C, a list output button 220D, a facility layout diagram button 220E, a related master list button 220G, and a facility data conceptual diagram button 220H.

  The search condition input unit 221 can input a search condition. In the present embodiment, the facility category, device type, device number, component type, installation location, manufacturer, model, remaining life, and keyword can be specified as search conditions. The facility classification, device type, and device number are the same as those in the search condition input unit 201 on the screen 200. As the component type, the type of the component can be specified. The installation location is the same as the search condition input unit 211 on the screen 210. The manufacturer can specify the manufacturer of the device. As the model, the model of the device can be specified. For the remaining life, the remaining life of the device can be specified.

  When the new registration button 220A is pressed, a management information information registration screen of the device list database 43 is displayed. The target edit button 220B displays an information registration screen for editing the management information of the device when pressed while one of the devices displayed on the device list display unit 223 is selected. When the target deletion button 220C is pressed in a state where any one of the devices displayed on the device list display unit 223 is selected, a deletion screen for deleting the management information of the device is displayed. When the list output button 220D is pressed, the device list output unit 56 is activated and the device management information displayed on the device list display unit 223 is output as a device list form. The equipment layout map button 220E has the same function as the equipment layout map button 200E. When the related master list button 220G is pressed in a state where any device displayed on the device list display unit 223 is selected, a master list related to the device is displayed on the screen 200. When the facility data conceptual button 220H is pressed in a state where any device displayed on the device list display unit 223 is selected, the conceptual diagram output unit 57 is activated, and the facility data conceptual diagram 110 of the device is displayed as the facility data. It is displayed on the conceptual diagram screen 230.

  The facility data conceptual diagram screen 230 will be described with reference to FIG. FIG. 9 is an explanatory diagram illustrating an example of a screen that displays a facility data conceptual diagram. FIG. 9 is a conceptual diagram 110 of equipment data for the electric valve 111. In the equipment data conceptual diagram 110, the electric device 112, the cable connection unit / field box connection unit 113, the field connection box 114, the cable 115, the electric penetrating terminal box connection unit 116, and the electric device are configured as the devices constituting the selected motor operated valve 111. A penetration junction box 117 and an electrical penetration 118 are shown. In the facility data conceptual diagram 110, the lifetimes of the electric device 112, the cable connection / field box connection 113, the cable 115, the electric pen terminal box connection 116, and the electric pen 118 are shown. The lifetime of each device is displayed, for example, by changing the color, line type, thickness, etc. of the ellipse surrounding each device. In this embodiment, the line type of the ellipse surrounding each device is changed according to the lifetime of each device.

  The facility layout diagram display screen 240 will be described with reference to FIG. FIG. 10 is an explanatory diagram illustrating an example of a screen that displays a layout diagram. The layout diagram 120 shows the location where the device is placed and the location where the environment is measured. When the selection operation is performed on the arrangement location and the measurement location in the arrangement diagram 120, a screen 220 on which the devices related to the location are displayed on the device list display unit 223 is displayed. For example, when an arrangement location is selected in the arrangement drawing 120 displayed on the equipment arrangement drawing display screen 240, the input detection unit 21 detects the selection operation. Then, based on the device list database 43, the control unit 5 displays a screen 220 in which the devices arranged at the arrangement location are displayed on the device list display unit 223. For example, when the measurement location is selected in the layout diagram 120 displayed on the equipment layout diagram display screen 240, the input detection unit 21 detects the selection operation. Then, based on the device list database 43, the control unit 5 displays a screen 220 on which the device corresponding to the measurement location is displayed on the device list display unit 223.

  Next, a management method using the management apparatus 1 will be described with reference to FIGS. FIG. 11 is a flowchart showing an outline of a management method in the management apparatus according to the present embodiment. FIG. 12 is a flowchart showing an outline of a management method in the management apparatus according to the present embodiment. FIG. 13 is a flowchart showing an outline of a management method in the management apparatus according to the present embodiment. FIG. 14 is a flowchart showing an outline of a management method in the management apparatus according to the present embodiment.

  As shown in FIG. 11, the management device 1 executes a management method including a database generation step S1 and an output step S2 at the control unit 5. Assume that the master list database 41 is generated before the execution of the database generation step S1, and the environment measurement result database 42 is generated after the execution of the database generation step S1.

  The database generation step S1 will be described with reference to FIG. The control unit 5 acquires input information input on the information registration screen (step S11).

  The control unit 5 registers the management information in the device list database 43 based on the acquired input information in the device list registration unit 55 (step S12).

  The output step S2 will be described with reference to FIG. The control unit 5 acquires input information input to the form setting screen (step S21).

  The control unit 5 uses the device list output unit 56 to acquire the device list from the management information in the device list database 43 (step S22). The device list includes data items set on the form setting screen.

  The control unit 5 outputs the device list form by the device list output unit 56 (step S23). More specifically, the control unit 5 uses the device list output unit 56 to generate and output a form from the acquired device list.

  With reference to FIG. 14, the process in the layout drawing output unit 58 will be described. The control unit 5 acquires input information input to the selection screen (step S31).

  The control unit 5 acquires the facility arrangement information by the arrangement drawing output unit 58 (step S32). In this embodiment, the equipment arrangement information corresponding to the selected building and hierarchy is acquired. The layout diagram 120 shows a schematic plan view of a facility corresponding to the selected building and hierarchy, a device layout location, and a measurement location where environmental measurement is performed.

  The control unit 5 causes the layout map output unit 58 to display the layout map 120 on the display 2 (step S33).

  As described above, this embodiment can manage the management information including the environmental information, the lifespan, and the replacement record of the devices for which environmental resistance performance is required by the device list database 43. In the present embodiment, management information including device environment information, lifespan, and replacement results can be searched. In the present embodiment, the management information in the device list database 43 can be edited by the device list registration unit 55. In the present embodiment, the device list can be displayed on the display 2 as a list, or can be printed as a form by the printer 3.

  In the present embodiment, the environmental measurement result database 42 can manage the management information of the environmental measurement result in the facility of the nuclear power plant. In the present embodiment, it is possible to search the environmental measurement result of the environment where the device is installed. In the present embodiment, the management information in the environmental measurement result database 42 can be edited by the environmental measurement registration unit 53.

  In this way, the present embodiment can appropriately manage and maintain the device. This embodiment can manage the nuclear power plant equipment including environmental information related to the environmental resistance performance.

  According to this embodiment, it is possible to browse and register related evidence of management information in the device list database 43. Thereby, this embodiment can explain the validity of the management information memorize | stored in the apparatus list database 43 easily and correctly.

  According to the present embodiment, the facility data conceptual diagram 110 can visually output management information including the lifetimes of devices and other devices connected to the devices. In this embodiment, in addition to the lifetime of one device, the lifetime of other connected devices is also displayed in a manner that can be identified by color or the like, so that it is easier to grasp the lifetime of the device and the replacement time. A data conceptual diagram 110 can be output.

  In the present embodiment, the device list database 43 stores the last update date 4321 and the last updater 4322 as management information. Thereby, this embodiment can explain the validity of the management information memorize | stored in the apparatus list database 43 easily and correctly.

  According to the present embodiment, when the installation location or the measurement location shown in the layout diagram 120 displayed on the equipment layout diagram display screen 240 is selected and operated, the management information of the devices installed in the selected location is browsed. Can do. Thereby, this embodiment can perform an apparatus search easily.

  The management apparatus, management method, and management program according to the present embodiment have been described so far, but may be implemented in various different forms other than the above-described embodiments.

  The master list registration unit 51 may receive registration information or editing information of the master list database 41 as a file, and may edit the master list database 41 based on the received file. The environmental measurement registration unit 53 may receive registration information or editing information of the environmental measurement result database 42 as a file, and may edit the environmental measurement result database 42 based on the received file. The device list registration unit 55 may receive registration information or editing information of the device list database 43 as a file, and may edit the device list database 43 based on the received file.

1 management device 2 display (output unit)
21 Input detection unit 3 Printer (output unit)
4 Storage Unit 41 Master List Database 42 Environmental Measurement Result Database 43 Device List Database 5 Control Unit 51 Master List Registration Unit 52 Master List Output Unit 53 Environmental Measurement Registration Unit 54 Environmental Measurement Output Unit 55 Device List Registration Unit 56 Device list output unit 57 Conceptual diagram output unit 58 Layout diagram output unit 110 Facility data conceptual diagram (conceptual diagram)
120 Layout

Claims (7)

A database for storing management information of EQ equipment installed in the facility of the nuclear power plant;
An output unit for outputting the management information stored in the database;
A control unit that acquires the management information from the database and outputs the management information to the output unit;
With
The device has environmental resistance to the temperature and radiation dose of the environment in which the device is installed,
The management information includes the environmental resistance performance.   The management information includes environmental information including the temperature and radiation dose of the environment in which the device is installed, and the lifetime of the device in the environment in which the device is calculated, based on the environmental information. The management apparatus according to claim 1.   The control unit acquires the management information including the lifetime from the database, and displays a conceptual diagram showing a connection state and a lifetime between the device and another device connected to the device with respect to the output unit. The management apparatus according to claim 2, wherein the management apparatus outputs the output. An input detection unit that detects a selection operation for the management information output by the output unit;
The management information includes location information in the facility where the equipment is installed,
The control unit causes the output unit to output a layout diagram of the facility including the location information, and when the input detection unit detects a selection operation for the location information in the layout map, the location information from the database The management apparatus according to claim 1, wherein the management information of the device related to the device is acquired and output to the output unit.   The management apparatus according to any one of claims 1 to 4, wherein the management information includes an updater and an update date of the database. A database generation step for storing management information of EQ equipment installed in a nuclear power plant facility in a database;
An output step of acquiring the management information from the database and outputting the management information to an output unit;
Including
The device has environmental resistance to the temperature and radiation dose of the environment in which the device is installed,
The management information includes the environmental resistance performance. A database generation step for storing management information of EQ equipment installed in a nuclear power plant facility in a database;
An output step of acquiring the management information from the database and outputting the management information to an output unit;
To the computer,
The device has environmental resistance to the temperature and radiation dose of the environment in which the device is installed,
The management information includes the environmental resistance performance.

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