JP2005181211A - Device, method and program for operating display in boiling water reactor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize a display of information in a format which enables users to easily grasp it by utilizing human-to-machine interface technology. <P>SOLUTION: A device displays positions of all control rods, switches for diagnosing solenoid valves, switches for setting solenoid valve bypasses, system resetting switches, numeric and determination keys, the position coordinate of the solenoid valves, the presence or absence of the abnormality of them, the detailed information on the diagnosis results of them, the presence or absence of the abnormality of them by using two different colors, the display of an issued alarm, an abnormality encountered by each device and the detailed information on the abnormalities by laying them out properly on a display component. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a display operation device, a display operation method, and a display operation program for operating a device of a boiling water reactor (hereinafter abbreviated as a nuclear reactor) and displaying information.

  In a nuclear reactor, a plurality of control rods are used to control output. For example, in the case of a 1100 MWe class nuclear reactor, 185 control rods are used. The control rod is composed of a neutron absorber. By pulling it out of the reactor, the nuclear reaction is activated, the output of the reactor is increased, and the nuclear reaction is calmed down by being inserted into the reactor. And reduce the reactor power.

  Inserting the control rod into the reactor and pulling out the control rod from the reactor operates four directional control solenoid valves (hereinafter referred to as solenoid valves) provided in the control rod drive mechanism that drives the control rod. The water pressure is generated by injecting water into the control rod drive mechanism or discharging water from the control rod drive mechanism. This control rod drive mechanism is provided for each control rod.

  Selection of the control rod to be driven, insertion of the control rod into the reactor, and withdrawal of the control rod from the reactor are performed by the operator operating the selection switch, insertion switch, and extraction switch of the reactor manual operation device. Done.

  The position of the control rod is detected by a reed switch provided in the position detection mechanism in the control rod drive mechanism. A total of 54 reed switches are provided, one at each position where the value of the notch (which is a unit of control rod movement and mechanically fixed) is an even number and an odd number. This reed switch is turned on when the magnet installed on the control rod side approaches, and turned off when it moves away. When the control rod is driven normally, it is designed to stop at a position indicated by an even number. The detected position of the control rod is displayed after data transmission.

  The solenoid valve that drives the control rod plays an important role in the operation of the nuclear reactor, and if a problem such as the control rod not moving due to a malfunction of the solenoid valve occurs, There is a risk of impact. For this reason, the operator needs to accurately grasp the position of the control rod and the state of the electromagnetic valve, and be able to respond quickly when an abnormality occurs. For this purpose, it is necessary to always have a function of monitoring the position of the control rod and the state of the solenoid valve, detecting an abnormality, and displaying it in a form that is easy for a human to grasp.

  Conventionally, in order to know the situation inside the nuclear reactor, a technique has been proposed in which various types of detectors are installed to monitor and measure the nuclear reactor, and information on the result is displayed on a display device. For example, Patent Document 1 discloses a technique for graphically displaying the state of selected control rods inserted into or withdrawn from a nuclear reactor and neutron detectors disposed in the vicinity thereof, and the neutron detection described above. A technique for displaying the output from the detector in a color-coded manner according to the output level, a technique for a screen selection switch for selecting and operating a screen to be displayed, and a technique for displaying the operating state of the neutron detector as symbols.

  Patent Document 2 discloses a technique for displaying the operation of the control rod and the state of the control rod driving device for the purpose of reducing the burden on the operator. Furthermore, Patent Document 3 describes a touch operation function using a flat display with a touch switch.

With the introduction of such a technology that displays information in a form that is easy for humans to understand (hereinafter abbreviated as human machine interface (HMI) technology), reactor operators can more easily understand the situation inside the reactor. It is possible to grasp the situation, and it is possible to respond promptly and accurately when an abnormality occurs. As a result, the burden on the operator can be reduced, and the reliability of reactor monitoring can be improved.
JP-A-6-123791 (paragraphs 0014 to 0016) JP-A-6-138284 (paragraphs 0018 to 0020) JP 2003-207591 A (paragraph 0011)

  However, although the HMI technology described above has been realized in some objects such as displaying the state of the neutron detector in a format that is easier to grasp, information for operation of the control rod and position monitoring Moreover, it has not been realized to display information on the state of the solenoid valve in a format that is easy for a human to grasp.

  Therefore, in the present invention, display of the position of the control rod, operation for diagnosis of the solenoid valve, and the detected abnormality and its detailed information necessary for the operation and position monitoring of the control rod and the monitoring of the status of the solenoid valve are required. Display, operation for designating control rods to bypass the diagnosis of solenoid valves, display of alarms generated when control rod operations do not match the status of other systems in the reactor, and batch of abnormalities occurring in each device The purpose of the present invention is to realize display of information in a format that can be easily grasped by humans by using HMI technology for display and hierarchical display of abnormality occurring in each device and detailed information of each abnormality. .

  In order to solve the above problems, in the present invention, the position of all control rods, solenoid valve diagnostic switch, solenoid valve bypass setting switch, system reset switch, numeric key and confirm key, control rod coordinates, Presence / absence of electromagnetic valve abnormality, detailed information of electromagnetic valve diagnosis result, presence / absence of electromagnetic valve abnormality by two different colors, generated alarm, abnormality generated for each device, and detailed information of abnormality, It was decided to arrange and display appropriately on the display unit.

  Displaying information in this way makes it possible to acquire necessary information in a format that is easy for a human to grasp.

  Further, in the present invention, the presence / absence of an abnormality and the display of its detailed information, the switching of the screen for displaying an alarm, and the hierarchical display of the abnormality and its detailed information occurring for each apparatus provided in the reactor It was set as the structure which performs.

  By configuring in this way, it is possible to leave information and display necessary information accurately until the abnormality is resolved, and as a result, it is possible to realize a quick response by the operator.

  According to the present invention, the display of the position of the control rod, the operation of electromagnetic valve diagnosis and the detected abnormality and its detailed information, the operation of specifying the control rod to bypass the electromagnetic valve diagnosis, and the operation of the control rod are atomic. HMIs are used to display alarms generated due to inconsistencies with the status of other systems in the furnace, collective display of abnormalities occurring in each device, and hierarchical display of abnormalities occurring in each device and detailed information on individual abnormalities. By using the technology, it is possible to display information in a format that is easy for a human to grasp.

  In addition, by displaying information in a format that is easy for humans to understand, the reactor operator can more easily understand the situation inside the reactor. It becomes possible to respond accurately and accurately. As a result, the burden on the operator can be reduced, and the reliability of reactor monitoring can be improved.

Embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
FIG. 1 is an extracted configuration diagram showing the configuration of each apparatus related to the present invention in a nuclear reactor. Each device related to the present invention includes a nuclear reactor 1, a control rod 2, a control rod drive mechanism 3, a position detection mechanism 4, a control rod drive device 5, a control rod control device 6, a position input device 7, and a control rod position monitoring device 8. Consists of For operation and display, there are a display control device 9 and a display control device (main) 11, and a display operation device 10 and a display operation device (main) 12 on the central operation panel 13.

  In the nuclear reactor 1, thermal energy is obtained by fissioning the enriched uranium 235.

  A number of control rods 2 corresponding to the output are installed in the nuclear reactor 1. For example, in the case of a 1100 MWe class nuclear reactor, 185 control rods 2 are installed. The control rod 2 controls the output of the nuclear reactor 1 by inserting it into the nuclear reactor 1 or withdrawing it from the nuclear reactor 1.

  The control rod drive mechanism 3 is provided for each control rod 2 and includes four solenoid valves (not shown). By opening and closing the solenoid valves, water is injected into and discharged from the inside. The control rod 2 is moved by water pressure to realize insertion of the control rod 2 into the reactor 1 and withdrawal of the control rod 2 from the reactor 1.

  The control rod driving device 5 is prepared for each control rod 2 and selects the control rod 2 based on the coordinate information of the control rod 2 to be operated included in the operation command transmitted from the control rod control device 6. To do. Further, the control rod driving device 5 provides excitation information (extraction supply valve excitation command, extraction discharge valve excitation command, insertion supply valve excitation command, insertion discharge valve excitation) to the solenoid valve of the control rod drive mechanism 3 that drives the control rod 2. Command), the solenoid valve is opened and closed, and the control rod 2 is driven.

  These operations by the operator are usually performed using a display operation device (main) 12 composed of hard switches and lamps installed on the central operation panel 13. For example, an operation target control rod is selected by a control rod selection switch installed in the display / operation device (main) 12, and the switch is operated while looking at the position information of the control rod to insert or pull out the control rod.

  The control rod control device 6 controls the control rod drive device 5 by transmitting an operation command. The inside of the control rod control device 6 is configured to be duplicated by the control operation units 6a and 6b having the same function, and each performs the same processing and performs the logical product operation of the result, whether the result is the same. By verifying these, the reliability of processing is ensured.

  In the control calculation units 6a and 6b of the control rod control device, it is determined whether or not the operation signal for driving the control rod 2 is an allowable operation in light of the state of the entire reactor system. For example, the control rod instructed from the display operation device 10 is collated with the information from the control device of the neutron instrumentation system, which is another device in the reactor, and the control rod instructed from the display operation device 10. It is determined whether or not the insertion can be executed. In order to realize this, the control rod control device 6 collects various information related to the state of the reactor from other devices in the reactor. The function of the nuclear reactor that makes such a determination is called a drive determination interlock function. If it is determined by the drive determination interlock function that the operation should not be executed, the execution of the operation is canceled. When it is determined that the operation can be performed, information for opening and closing the electromagnetic valve is output from the display / operation device 10 to the control rod drive device 5 based on the operation. This information includes coordinate information of the control rod 2 to be operated and excitation information of the solenoid valve as a command word. This drive determination interlock function also functions in the same manner when an operation is instructed from the display operation device (main) 12.

  Whether or not the operation can be executed is output to the other control calculation unit (6b if 6a, 6a if 6b) prior to the output of information for opening and closing the solenoid valve. It is determined whether or not. If they do not match, information for opening and closing the solenoid valve is not output. If they match, information for opening and closing the solenoid valve is output to the control rod drive device 5.

  The position detection mechanism 4 is provided in the control rod drive mechanism 3 and includes a reed switch (not shown) for detecting the position of the control rod 2. The position information of the control rod 2 detected by each reed switch is input as a position. It encodes and outputs to the apparatus 7.

  The same number of position input devices 7 as the control rod drive mechanisms 3 are prepared. Each position input device 7 is connected to the control rod drive mechanism 3, and the code of the control rod 2 detected by the reed switch provided in the position detection mechanism 4 is provided. Gathered location information.

  The control rod position monitoring device 8 collects the position information of the control rods 2 collected by the position input devices 7 and processes the position information of all the control rods 2. The inside is duplicated by the control arithmetic units 8a and 8b having the same function, and each performs the same process, thereby ensuring the reliability of the process.

  The display control device 9 includes an operation device information processing unit 91, a position device information processing unit 92, and a data processing unit 93. In the operation device information processing unit 91, information on an operation performed by the operator on the display operation device 10 is input after being converted by the data processing unit 93 and output to the control rod control device 6. In the position device information processing unit 92, the position information of the control rod 2 is input from the control rod position monitoring device 8, converted by the data processing unit 93, and then output to the display operation device 10. The data processing unit 93 performs data conversion processing for displaying the position information of the control rod 2 input from the control rod position monitoring device 8 and data conversion processing for the operation information input from the display operation device 10. . The display control device (main) 11 also has the same function.

  As illustrated in FIG. 2, the display operation device 10 includes a display unit 101 that displays information, an operation unit 102 that is operated by an operator, an information processing unit 103 that processes information, and a memory that stores information to be displayed. Unit 104 and an information input / output unit 105 that inputs and outputs information between the display control device, operation of the control rod 2 and information on its position, diagnosis operation of the electromagnetic valve and information on its result and generation Information on abnormalities or warnings that have been displayed is displayed. The display operation device (main) 12 also has the same function.

  Based on the functions of the devices and mechanisms described so far, the operation and display of the screen in the display operation device 10 according to the present invention will be described. The same applies to the display operation device (main) 12.

  The display operating device 10 has a means for individually displaying all control rods in the shape of the cross section of the reactor in the cross section on the display unit, and inspection of all solenoid valves that drive insertion and extraction of the control rods. Means for displaying a switch for instructing the start of the operation, means for displaying a switch for setting an electromagnetic valve not to be inspected when inspecting the electromagnetic valve, and a switch for initializing the display operation device Means for displaying. Here, “lateral cross section” means a cross section parallel to the horizontal plane of the installed reactor.

  FIG. 3 shows an example of a basic screen used when displaying information on the display unit of the display operation device 10. The regular octagon in the basic screen schematically shows the shape of the cross section in the horizontal direction of the reactor (hereinafter abbreviated as a schematic diagram of the reactor). (Hereinafter abbreviated as a control rod schematic diagram). In addition, to set the coordinate information of the “electromagnetic valve diagnostic switch” for commanding the start of electromagnetic valve diagnosis (described later) and the control rod (described later) for bypassing the electromagnetic valve diagnosis on the basic screen. The “bypass control rod setting switch” and the “system reset switch” for initializing the display operation device 10 are arranged.

  Next, diagnosis of the solenoid valve and display of the result information will be described. All solenoid valves that drive the control rods 2 are diagnosed by the control rod control device 6 for proper operation. In the diagnosis, the control rod control device 6 sequentially sends a signal for turning on the transistors in the solenoid valve drive circuit accommodated in the control rod drive device 5 for a very short time of about 400 μs, for example. An operation response signal indicating that the solenoid valve has been opened / closed correctly or has not been opened / closed is returned from the control rod driving device 5 to the control rod control device 6 to confirm the operation response. .

  The display operating device 10 selects and operates the switch for instructing the start of the inspection of the electromagnetic valve, and inspects the electromagnetic valve. Means for displaying on the control rod display individually displayed. Also, as a result of the inspection of the solenoid valve, the presence or absence of the abnormality found is displayed by using two different colors on the display of the control rod individually displayed in the shape of the cross section of the reactor in the horizontal direction on the display unit Means to do.

  Information on the result of diagnosing the electromagnetic valve is output from the control rod control device 6 and displayed on the display operation device 10 via the display control device 9. FIG. 4 shows an example in which information on the diagnosis result of the electromagnetic valve is displayed on the display operation device 10. As a result of the diagnosis of the solenoid valve, the presence / absence of the abnormality found is displayed on the control rod schematic diagram corresponding to the control rod driven by the diagnosed solenoid valve in the reactor schematic diagram. For example, it may be displayed in a color-coded manner such as displaying in green if it is normal and displaying in red if an abnormality is found. The filled control rod schematic diagram shown in FIG. 4 indicates that an abnormality has been found and is displayed in red.

  The display operation device 10 includes means for displaying information on the inspection result of the electromagnetic valve having an abnormality on the display unit.

  As shown in FIG. 4, information on the solenoid valve in which an abnormality is found and the control rod 2 that the solenoid valve drives is displayed on the same screen as the screen that displays whether normal or abnormal. For example, the coordinate information of the control rod 2 driven by the solenoid valve in which an abnormality is found, the failure location of the solenoid valve (separately withdrawing supply valve, withdrawal discharge valve, insertion supply valve and insertion discharge valve) and the phase in which the diagnosis was performed ( During insertion or withdrawal).

  The display operation device 10 stores means for storing the presence / absence of abnormality of the solenoid valve and the information of the inspection result of the solenoid valve having the abnormality, the display of the presence / absence of the detected abnormality and the information of the inspection result of the solenoid valve having the abnormality. Means for holding the display.

  In the event of an abnormality, the presence / absence of the abnormality found and detailed information on the inspection result of the solenoid valve that had the abnormality are stored in the storage unit, and the abnormality on the control rod schematic diagram in the reactor schematic diagram The display of the presence / absence of the error and the detailed information of the inspection result of the solenoid valve that had an abnormality are not erased immediately even if the cause of the abnormality is resolved, and it remains on the screen until the system reset switch is operated. Retained.

  The display operation device 10 is an operation key for inputting the coordinates of a control rod driven by a solenoid valve not to be inspected on the display unit when a switch for setting a solenoid valve not to be inspected is selected and operated. Means for displaying (numeric keys and confirmation key) and means for displaying the input coordinates.

  The control rod control device 6 performs a bypass function (hereinafter simply abbreviated as “bypass function”) that shifts to the diagnosis of the next solenoid valve without performing diagnosis of the designated solenoid valve when performing diagnosis of the solenoid valve sequentially. Performing the bypass function is simply referred to as “bypass”). The solenoid valve to be bypassed is configured by selecting and operating the “bypass control rod setting switch” arranged on the basic screen of FIG. For example, "12-34" is input as the coordinate information of the control rod 2 to be bypassed. The input coordinate information is displayed as shown in FIG. When the diagnosis of the solenoid valve is bypassed, for example, normal (green) or abnormal (red) can be identified on the control rod schematic diagram corresponding to the control rod 2 driven by the bypassed solenoid valve. ) Is displayed in yellow, which is a different color.

  The display operating device 10 includes means for switching and displaying information on the state of the same target in the nuclear reactor separately sent to the display operating device 10 on the display unit of the display operating device 10 according to the selection operation. ing.

  FIG. 6 shows a screen in which the control rod control device 6 displays a list of abnormality information used when the drive determination interlock function is executed on the display operation device 10. The duplicated control operation units 6a and 6b having the same function in the control rod control device 6 collectively display a list of abnormality information used when the drive determination interlock function is performed as shown in the screen of FIG. can do. Normally, a screen output by one control arithmetic unit 6a or 6b is displayed. However, when the drive determination interlock function operates and the determinations of the control calculation units 6a and 6b do not match, it is necessary to investigate the cause, and thus the screen output by the other control calculation unit is displayed. Therefore, by selecting and operating a switch for selecting a screen arranged in the screen on which the operator is displayed, the screen output from the control calculation unit 6a or 6b can be switched and displayed. The switches are displayed as “CH.1 display” and “CH.2 display”, for example. Further, in order to clearly show the selected screen to the operator, it is displayed in the same screen as “CH1 being displayed”. In FIG. 6, a list of abnormality information used in the interlock function is displayed as “AAA inoperable”, “BBB withdrawal prevention”, “CCC abnormality”, and the like.

  When it is determined by the drive determination interlock function of the control rod control device 6 that the operation should not be performed, the operator switches the display of Ch1 and Ch2 and displays the information displayed in the control calculation units 6a and 6b. The difference will be confirmed and countermeasures will be taken.

  The display operation device 10 includes means for collectively displaying information related to the states of a plurality of other devices on the display unit. Further, by selecting and operating a switch for displaying detailed information arranged on a display unit that collectively displays information related to information on a plurality of other devices, the state of the devices provided in the nuclear reactor is related. Means for hierarchically displaying detailed information is provided.

  FIG. 7 collectively shows an abnormality occurring in each apparatus related to the present invention, an abnormality discovered by diagnosis of a solenoid valve, and a mismatch of information grasped by the control arithmetic units 6a and 6b discovered by the interlock function. An example of the displayed screen is shown. This screen is for displaying the status of the device in a lump, and the operator can know the occurrence of an abnormality in the device and its contents only from this screen. Further, since the collective display and the detailed display are arranged in a hierarchy, it is possible to move directly from this screen to a screen for displaying the state of the apparatus in detail.

  On the screen shown in FIG. 7, the two control arithmetic units 6 a and 6 b in the control rod control device 6 include “control rod control device-1” and “control rod control device-2”, and control rod position monitoring device 8. The two control arithmetic units 8a and 8b are “control rod position monitoring device-1” and “control rod position monitoring device-2”, and the display control device 9 and the display control device (main) 11 are “display control device— “1” and “display control device-2” are displayed in the “self-diagnosis information” item. When an abnormality occurs, for example, the abnormality display on the right side of “control rod control device-1” is lit in red to notify the occurrence of the abnormality. If you want to know more detailed information due to the occurrence of an abnormality, select and operate the “detail display” switch on the left side of “control rod control device-1” to display detailed information as shown in FIG. The

  Further, in the screen shown in FIG. 7, the electromagnetic valve diagnosis and the discrepancy between the information grasped by the control calculation units 6a and 6b associated with the execution of the drive determination interlock function are “electromagnetic valve diagnosis” and “state mismatch”. Is displayed in the item of “system diagnosis information”. If an abnormality is found by diagnosis, for example, the abnormality display on the right side of “Solenoid Valve Diagnosis” is lit red to notify the detection of the abnormality. If you want to know more detailed information with the occurrence of an abnormality, you can operate the “detailed display” switch on the left side of “electromagnetic valve diagnosis” to display the detailed information.

  FIG. 8 shows an example of a screen displaying detailed information of the abnormality that has occurred. This screen is an example in which detailed information of an abnormality that has occurred in the control rod control device 6 is displayed. “Digital card 2” displayed as “diagnostic module” indicates that the object of diagnosis is the digital card 2, and “digital input card error factor A” is displayed as “diagnosis result display”. This indicates that the cause of the abnormality is the abnormality factor A occurring in the digital input card. In the lower part, an arrow or “abnormal” indication, reverse display, lighting with color, etc. indicate that an abnormality has occurred in the “digital input card 2” portion of a plurality of installed cards. ing.

  As described above, in the present embodiment, by using the HMI technology, operation for control rod position display and solenoid valve diagnosis necessary for control rod operation and position monitoring and solenoid valve status monitoring are performed. Display of detected anomalies and their detailed information, operation to specify control rods that bypass the solenoid valve diagnosis, and display of alarms generated by control rod operations not consistent with the status of other systems in the reactor In addition, it is possible to realize a collective display of abnormalities that have occurred in each device and a hierarchical display of abnormalities that have occurred in each device and detailed information on individual abnormalities in a form that is easy for humans to understand, and eliminate abnormalities. It is possible to realize a quick response of the operator by leaving the information until it is done and displaying the necessary information accurately.

It is the block diagram which extracted and showed each apparatus in connection with this invention among nuclear reactors. It is a block diagram of a display operation device. It is an example of the basic screen used when displaying and operating various information on the display operation device. It is an example of the screen where the information of the diagnostic result of the solenoid valve was displayed on the display operation device. It is an example of the screen for the display of the coordinate information of the control rod which the solenoid valve which wants to bypass drives, and the seating information of the control rod which the solenoid valve which wants to bypass. It is an example of the screen which displays the list of information displayed when an interlock function is implemented. It is an example of the screen which displays the state of the apparatus with which a nuclear reactor is equipped collectively. It is an example of the screen which displays the detailed information of the abnormality which occurred.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Reactor 2 Control rod 3 Control rod drive mechanism 4 Position detection mechanism 5 Control rod drive device 6 Control rod control device 6a Control calculation unit 6b Control calculation unit 7 Position input device 8 Control rod position monitoring device 8a Control control device 8b Control control Device 9 Display control device 91 Operation device information processing unit 92 Position device information processing unit 93 Data processing unit 10 Display operation device 11 Display control device (main)
12 Display operation device (main)
13 central operation panel 101 display unit 102 operation unit 103 information processing unit 104 storage unit 105 information input / output unit

Claims (11)

A display unit that displays information, an arithmetic processing unit that performs arithmetic processing of information, and a storage unit that stores information, and displays the state of the control rod of the boiling water reactor on the display unit, and the operation A boiling water reactor display operation device that receives input of operation commands to the reactor by an operator by the arithmetic processing unit,
The arithmetic processing unit is
Means for storing in the storage unit the presence or absence of abnormality of the electromagnetic valve and information on the inspection result of the electromagnetic valve having abnormality;
A display operation apparatus for a boiling water reactor, comprising: means for holding on the display unit display of whether or not the electromagnetic valve is abnormal and information on the inspection result of the electromagnetic valve having abnormality. It comprises at least a display unit for displaying information and an arithmetic processing unit for performing information processing. The state of the control rod of the boiling water reactor is displayed on the display unit, and an operation to the nuclear reactor by an operator is performed. A boiling water reactor display operation device that receives an instruction input by the arithmetic processing unit,
The arithmetic processing unit is
Means for individually displaying a schematic diagram of the control rods in a schematic diagram of a cross section in a lateral direction of the nuclear reactor displayed on the display unit;
Means for displaying on the display unit a first switch for instructing start of inspection of a solenoid valve that drives insertion and extraction of the control rod;
Means for displaying on the display unit a second switch for setting an electromagnetic valve not to be inspected when inspecting the electromagnetic valve;
And a means for displaying a third switch for initializing the display operation device on the display unit. A display operation device for a boiling water reactor. The arithmetic processing unit is
Means for displaying the presence or absence of abnormality of the electromagnetic valve on the individually displayed schematic diagram of the control rod when the first switch is selected and operated;
The display operation device for a boiling water reactor according to claim 2, further comprising: means for displaying information on an inspection result of the electromagnetic valve having an abnormality on the display unit. The arithmetic processing unit is
When the first switch is selected, there is provided means for displaying the presence or absence of abnormality of the solenoid valve by using two different colors in the schematic diagram of the control rod displayed individually. The display operation apparatus for a boiling water reactor according to claim 2. The arithmetic processing unit is
Means for displaying an operation key on the display unit for inputting coordinates of a control rod driven by a solenoid valve that is not inspected when the second switch is selected, and the input by the operation key Means for displaying coordinates on the display unit;
The display operation device for a boiling water reactor according to claim 2, comprising: It comprises at least a display unit for displaying information and an arithmetic processing unit for performing information processing. The state of the control rod of the boiling water reactor is displayed on the display unit, and an operation to the nuclear reactor by an operator is performed. A boiling water reactor display operation device that receives an instruction input by the arithmetic processing unit,
The arithmetic processing unit is
A display operation apparatus for a boiling water reactor, comprising: means for switching, according to a selection operation, and displaying on the display unit information relating to the state of the same apparatus in the reactor that has been sent separately. It comprises at least a display unit for displaying information and an arithmetic processing unit for performing information processing. The state of the control rod of the boiling water reactor is displayed on the display unit, and an operation to the nuclear reactor by an operator is performed. A boiling water reactor display operation device that receives an instruction input by the arithmetic processing unit,
The arithmetic processing unit is
A display operation device for a boiling water reactor, comprising: means for collectively displaying information on the states of a plurality of devices on the display unit. The arithmetic processing unit is
In the case of having a function of collectively displaying information on the state of a plurality of devices on the display unit,
By selecting and operating a switch for displaying the detailed information of the devices arranged in the display of the information on the status of the plurality of devices displayed at once, the detailed information of the devices is hierarchically displayed on the display unit. The display operation device for a boiling water reactor according to claim 7, further comprising a display means. A display operation method for a boiling water reactor, in which a state of a control rod of a boiling water reactor is displayed on a display unit, and an operation command input to the reactor by an operator is received by an arithmetic processing unit,
The arithmetic processing unit is
A procedure for inspecting the solenoid valve;
As a result of inspecting the electromagnetic valve, the procedure for storing the presence or absence of the abnormality found and information on the inspection result of the electromagnetic valve having the abnormality in the storage unit,
A procedure for displaying on the display the presence or absence of the abnormality found and information on the inspection result of the solenoid valve having the abnormality;
A display operation method for a boiling water reactor, comprising: a step of holding a display of presence / absence of an abnormality displayed on a display unit and a display of information on an inspection result of a solenoid valve having an abnormality. A boiling water reactor display operation program that displays the state of the control rod of the boiling water reactor and that uses a computer to input an operation command to the reactor by an operator,
In the computer,
A function of storing the presence or absence of abnormality of the solenoid valve and information on the inspection result of the solenoid valve having the abnormality;
A display operation program for a boiling water reactor, which realizes a function of holding a display unit to display whether or not a solenoid valve is abnormal and to display information on an inspection result of a solenoid valve having an abnormality. A boiling water reactor display operation program that displays the state of the control rod of the boiling water reactor and that uses a computer to input an operation command to the reactor by an operator,
In the computer,
A function of individually displaying a schematic diagram of the control rod in a schematic diagram of a cross section in a lateral direction of the nuclear reactor displayed on the display unit;
A function of displaying on the display unit a first switch for instructing start of inspection of a solenoid valve that drives insertion and extraction of the control rod;
A function of displaying on the display unit a second switch for setting a solenoid valve not to be inspected when inspecting the solenoid valve;
A display operation program for a boiling water reactor, which realizes a function of displaying a third switch for initializing the display operation device on a display unit.

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