KR102136956B1 - Input output hot-swappable wiring interface providing method and apparatus and system therefor - Google Patents

Abstract

The present invention relates to a method for providing an input/output hot-swappable wiring interface for a simulation control panel for nuclear power plant education, and a device and system therefor. The simulation control panel system for power plant training according to an embodiment of the present invention comprises: a main control room control panel including a plurality of operation equipment panels for controlling operation equipment for each system; a nuclear power plant training simulator equipped with an education training control program to perform modeling of a power plant component and generate a command value calculated through the education training control program; an input/output control card having a plurality of channels for receiving the command value and transmitting it to the main control room control panel; and a wiring change device for monitoring the channel and performing a wiring change when a failure is detected. Accordingly, the present invention can solve the problem more safely and quickly by changing the input/output wiring in a non-stop state when a channel failure is detected during the operation of a simulation control panel for nuclear power plant education.

Description

Method for providing input/output hot-swappable wiring interface and device and system therefor {INPUT OUTPUT HOT-SWAPPABLE WIRING INTERFACE PROVIDING METHOD AND APPARATUS AND SYSTEM THEREFOR}

The present invention relates to a simulation control panel for nuclear power plant training, and more particularly, to a technology for providing an input/output hot-swappable wiring interface capable of changing the input/output channel of a failure when detecting a failure of an input/output channel of a simulation control panel facility for nuclear power plant training.

Nuclear power plants operate a number of nuclear power plant training simulators (simulators) to train and maintain operators.

The simulation control panel for nuclear power plant training is managed in the same way as the complex operating facilities and operating systems of the main control room (MCR) of the actual nuclear power plant, and the various instruments used for this are somewhat different in class, but the main control room of the actual nuclear power plant I am using the same device.

The simulation control panel for education and training is also composed of a number of operation facility panels, the same as the main control panel of a nuclear power plant, and each operation facility of the simulation control panel is connected by being divided into one panel for each system.

The nuclear control panel for nuclear power plant training is defined as an essential facility that nuclear power plant operators must possess through the Nuclear Regulatory Commission (NRC) of the United States through the Regulation on the Qualification Test of Nuclear Power Plant Operators (10CFR55).

Korea is also developing and operating regulatory guidelines for the Nuclear Safety Commission (17.8 “Mock Control Panel for Training of Nuclear Power Plant Workers”).

Currently, the average number of I/Os provided in the simulation control panel facility for nuclear power plant training operated by Hansuwon is more than 15,000 points, and it takes an average of two hours to repair the faulty channel of one I/O control card.

In particular, in the case of the conventional control panel for nuclear power plant training, in order to repair a channel failure of the input/output control card, after cutting off the power supplied to the simulation control panel equipment, a wire list and input/output mapping data are provided. There was a problem in that each input and output control card had to be replaced after finding the fault channel using various measurement equipment.

It takes more than 30 minutes on average to restart after the mock control panel start-up information.Including the time to repair the fault channel, more than 3 hours out of 8 hours of training time per day are wasted due to breakdown repair, so normal education training is impossible There was a problem.

In addition, compared to the number of signal cables connected to the input/output channels of the simulated control panel, the number of channels of the input/output control card is provided so that in case of a channel failure, the signal cable of the faulty channel can be changed to a normal channel without replacing the control card. However, in the actual field, the maintenance is carried out by replacing the control card entirely for convenience of maintenance and time for troubleshooting. This has the problem of causing rapid inventory exhaustion of the input/output control card and consequent increase in maintenance cost.

In addition, when a channel failure occurs, there is a problem in that static electricity and short circuit are generated in the process of separating and replacing the corresponding input/output control card from the wire and then removing and replacing it from the chassis.

An object of the present invention is to provide a method for providing an input/output hot-swappable wiring interface for a simulation control panel for nuclear power education, and an apparatus and system therefor.

Another object of the present invention is to provide a method and apparatus and system for providing an input/output hot-swappable wiring interface capable of automatically detecting and identifying a faulty channel of a simulation control panel for nuclear power plant education and changing input/output wiring in a non-stop state.

Another object of the present invention is to provide a method and apparatus for providing an input/output hot-swappable wiring interface capable of significantly reducing a failure repair time of a simulation control panel for nuclear power education.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following descriptions.

The simulation control panel system for nuclear power plant training according to an embodiment of the present invention is equipped with a main control room control panel including a plurality of operation facility panels for controlling operation facilities for each system and a control program for education and training to model power plant components. I/O control card and the channel having a plurality of channels for receiving and transmitting the command value to the main control room control panel and the simulator for nuclear power plant training that performs and generates the command value calculated through the control program for education and training It may include a wiring change device that performs a wire change when monitoring the failure by monitoring the.

For example, the main control room control panel and the wiring change device may perform cable communication, and the simulator for nuclear power plant training and the input/output control card may perform Ethernet communication.

In an embodiment, the wiring changer is connected to a channel slot of the wire switching block and the input/output control card having a plurality of wiring ports hard-wired with an analog input device of the driving facility panel, and the wire switching block and an internal line. A channel switching block connected to a channel and an operation of monitoring channel frames for all operation channels between the wire switching block and the channel switching block. A channel detection module and a wiring change when a failure is determined based on the channel frame monitoring result. It may include a channel monitoring module.

In an embodiment, when the operation channel detection module monitors the channel frame at a predetermined cycle and detects an abnormal channel frame, it may transmit a failure event signal including a channel identifier corresponding to the detected abnormal channel frame to the operation channel monitoring module. have.

In an embodiment, the cycle may be set to 26 or more times per second.

In an embodiment, the operation channel monitoring module identifies a faulty channel based on the channel identifier, and if an idle channel capable of changing the wiring exists in the input/output control card corresponding to the faulty channel, connects the line connected to the faulty channel. The wiring can be changed by switching to the idle channel.

In an embodiment, when the operation facility panel is connected to the identified faulty channel, the operation channel monitoring module may perform wiring change for the faulty channel.

In an embodiment, the operation channel monitoring module may transmit a control card replacement request message including the corresponding control card identifier to the corresponding manager terminal when the idle channel does not exist.

In an embodiment, the control card identifier may be a slot number in which the corresponding input/output control card is mounted.

In an embodiment, the storage facility further includes a wiring list, which is the wiring port allocation information for each driving facility panel, and a shared storage that maintains input/output channel mapping information, which is mapping relationship between the wiring port and a channel provided by the input/output control card. , The operation channel monitoring module performs the identification of the idle channel and the wiring change with reference to the wiring list and the input/output channel mapping information, and when the wiring change is completed, the wiring is based on the wiring change history The list and the input/output channel mapping information can be updated.

A method of providing an input/output hot-swappable wiring interface in a wiring change apparatus according to another embodiment of the present invention includes driving a simulation control panel system for nuclear power plant training and command values calculated through a control program for training and education of a nuclear power plant training simulator. Step of receiving through the input and output control card and transmitting the command value to the main control room control panel and monitoring the channel provided in the input and output control card to perform a wiring change when the system is running when a failure is detected It can contain.

For example, the main control room control panel and the wiring change device may perform cable communication, and the simulator for nuclear power plant training and the input/output control card may perform Ethernet communication.

In an embodiment, the wiring change device is connected to a channel slot of the wire switching block and the input/output control card having a plurality of wiring ports hard-wired with an analog input device of the driving facility panel, and the wire switching block and an internal line. An operation channel detection module that monitors channel frames for all connected channel switching blocks and all operation channels between the wire switching block and the channel switching block, and an operation channel monitoring module that performs wiring change upon failure determination based on the channel frame monitoring results. It may include.

In an embodiment, when the operation channel detection module monitors the channel frame at a predetermined cycle and detects an abnormal channel frame, it may transmit a failure event signal including a channel identifier corresponding to the detected abnormal channel frame to the operation channel monitoring module. have.

In an embodiment, the cycle may be set to 26 or more times per second.

In an embodiment, the operation channel monitoring module identifies a faulty channel based on the channel identifier, and if an idle channel capable of changing the wiring exists in the input/output control card corresponding to the faulty channel, connects the line connected to the faulty channel. The wiring can be changed by switching to the idle channel.

In an embodiment, when the operation facility panel is connected to the identified faulty channel, the operation channel monitoring module may perform a wiring change for the faulty channel.

In an embodiment, the operation channel monitoring module may transmit a control card replacement request message including the corresponding control card identifier to the corresponding manager terminal when the idle channel does not exist.

In an embodiment, the control card identifier may be a slot number in which the corresponding input/output control card is mounted.

In an embodiment, the system maintains a shared storage that maintains the wiring list, which is the wiring port allocation information for each operation facility panel, and the input/output channel mapping information, which is mapping relationship information between the wiring port and a channel provided by the input/output control card. Further comprising, the operation channel monitoring module performs the idle channel identification and the wiring change with reference to the wiring list and the input/output channel mapping information, and when the wiring change is completed, based on the wiring change history The wiring list and the input/output channel mapping information may be updated.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those having ordinary knowledge in the technical field to which the present invention belongs from the following description. Will be able to.

The present invention has an advantage of providing a method for providing an input/output hot-swappable wiring interface for a simulation control panel for nuclear power education, and an apparatus and system therefor.

In addition, the present invention has an advantage of providing an input/output hot-swappable wiring interface capable of automatically detecting and identifying a faulty channel of a simulation control panel for nuclear power plant education and changing input/output wiring in a non-stop state, and an apparatus and system therefor. .

In addition, the present invention has the advantage of providing a method and apparatus and system for providing an input/output hot-swappable wiring interface capable of significantly reducing the repair time of failure of the simulation control panel for nuclear power education and saving maintenance cost.

In addition, according to the present invention, the line connected to the faulty channel is automatically connected to the spare channel without the replacement of the control card in the event of a channel failure, thereby reducing inventory exhaustion of the control card and preventing failure due to static electricity and short circuit. There is this.

In addition, various effects that can be directly or indirectly identified through this document may be provided.

1 is a view for explaining the configuration of a simulation control panel system for nuclear power plant training according to an embodiment of the present invention.
2 is a view for explaining the configuration of a simulation control panel system for nuclear power plant training according to another embodiment of the present invention.
3 is a view for explaining the structure of an input/output hot-swappable wiring interface providing apparatus provided in a simulation control panel system for nuclear power plant training according to an embodiment of the present invention.
4 is a flow chart for explaining a method for providing an input/output hot-swappable wiring interface in a simulation control panel system for nuclear power plant training according to an embodiment of the present invention.
5 is a flow chart for explaining a method of providing an input/output hot-swappable wiring interface in a simulation control panel system for nuclear power plant training according to another embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. It should be noted that in adding reference numerals to the components of each drawing, the same components have the same reference numerals as possible, even if they are displayed on different drawings. In addition, in describing embodiments of the present invention, when it is determined that detailed descriptions of related well-known configurations or functions interfere with understanding of the embodiments of the present invention, detailed descriptions thereof will be omitted.

In describing the components of the embodiments of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only for distinguishing the component from other components, and the nature, order, or order of the component is not limited by the term. Also, unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains. Terms such as those defined in a commonly used dictionary should be interpreted as having meanings consistent with meanings in the context of related technologies, and should not be interpreted as ideal or excessively formal meanings unless explicitly defined in the present application. Does not.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 5.

The nuclear power plant simulation control panel is a simulation training control facility that allows a nuclear power plant operator to train a nuclear power plant operation under the same conditions as the actual situation based on a high level of safety and precision.

Nuclear power plant simulation control panels are used for operator training and license tests in various situations of nuclear power plants, and the nuclear power plant simulation control panel installed in Korea is a full scope simulator (FSS) for nuclear power plant operators. It provides the same environment as the main control room (MCR).

Nuclear power plant simulation control panel is largely similar to the control panel of nuclear power plant control room panel and instrument, input/output control module and control computer for processing input/output signals of the instrument, high-speed communication network system for control computer communication, and operation of the simulation control panel It can be composed of computer and software for teaching and operation, modeling computer and software capable of operating a mathematical model of a nuclear power plant in real time, and development environment software for developing a nuclear power plant model.

The nuclear power plant simulation control panel can simulate the situation of the nuclear power plant and perform education and training of the following operators. For example, education and training may include normal driving training for a nuclear power plant, driving training for a normal stop of a nuclear power plant, driving training for starting a nuclear power plant, and training to deal with an emergency situation of a nuclear power plant.

1 is a view for explaining the configuration of a simulation control panel system for nuclear power plant training according to an embodiment of the present invention.

For convenience of explanation below, the simulation control panel system 100 for nuclear power plant training will be simply referred to as the system 100.

Referring to FIG. 1, the system 100 may include a main control room control panel 110, an input/output control device 120, and a nuclear power plant training simulator 130.

The main control room control panel 110 includes air conditioning equipment, auxiliary cooling equipment, safety equipment, chemical and volume control equipment, nuclear reactor cooling equipment, nuclear reactor control and protection equipment, steam generating equipment, water supply equipment, turbine equipment, power generation equipment, and on-board power. It may be configured to include a plurality of control panels for controlling the operating facilities for each system, including facilities.

The nuclear power plant training simulator 130 performs modeling of a control program for training and power plant components, collects input/output data required for the training program, and outputs and outputs command values calculated through the training program 120 Through it can be transmitted to each operating facility panel.

The simulation applied to a nuclear power plant is developed as a software and is provided as a function applied to a vast power plant system, and is configured to perform power plant operation training by simply providing calculated results.

The software for the driver training simulator can be composed of a mathematical modeling program, a real-time execution program, an instructor control panel software, and a graphical user interface.

The mathematical modeling program is a mathematical model of the normal and transient states of a nuclear power plant, and the real-time execution program controls the mathematical modeling program to be executed several times during a unit time-for example, 1 second-so that the realization of the nuclear power plant is real-time. It seems to be happening.

The instructor control panel software handles various commands required to operate the simulator.

The graphical user interface utilizes powerful graphical tools to interface with graphical screens and variables in the simulation database.

The input/output control device 120 is provided with a slot in which a plurality of input/output control cards can be mounted to control input/output for signals transmitted and received between the main control room control panel 110 and the nuclear power plant training simulator 130.

The main control room control panel 110 and the input/output control device 120 may perform cable communication, and the nuclear power plant training simulator 130 and the input/output control device 120 may perform Ethernet communication.

Therefore, the input/output control device 120 has a signal converter (not shown) that converts an Ethernet communication signal-that is, a digital communication signal-into a cable communication signal-that is, an analog communication signal-or converts a cable communication signal into an Ethernet communication signal. It may be provided.

2 is a view for explaining the configuration of a simulation control panel system for nuclear power plant training according to another embodiment of the present invention.

Hereinafter, for convenience of description, the simulation control panel system 200 for nuclear power plant training will be simply referred to as a system 200.

Referring to FIG. 2, the system 200 includes a main control room control panel 210, an input/output control device 220, a nuclear power plant training simulator 230, a driver console 240, an instructor terminal 250, and a high-speed communication network 260. ) And the shared storage 270.

The main control room control panel 210, the input/output control device 220 and the nuclear power plant training simulator 230 are respectively the main control room control panel 110, the input/output control device 120, and the nuclear power plant training simulator 130 of FIG. ).

As shown in FIG. 2, the driver console 240 for real-time monitoring of driving facilities by the driver and an instructor terminal 250 operated by an instructor or professor in order to conduct education and training are connected to the high-speed communication network 260 Can exchange mutual information.

The driver can check in real time the information displayed on various instruments and indicators of the driving facility panel in charge of the driver through the driver console 240.

In addition, the driver can remotely operate the corresponding panel switch of the driving facility through the driver console 240 while checking the information displayed on the meter and the indicator in real time.

Each switch panel has various switches, alarms, and regulators arranged in accordance with the flow of power plant system drawings, and dozens of measuring instruments and indicators for each panel, such as temperature, pressure, and water level of each system in the power plant. It can be installed in hundreds.

Professors and instructors in charge of education and training can not only monitor the entire education and training progress through the instructor terminal 250, but also transmit specific commands or warning messages to the driver console 240 through the high-speed communication network 260. .

The shared storage 270 is assigned to the wiring port allocation information of the input/output control unit 220 for each operation panel of each system constituting the main control room control panel 210-that is, the wiring list -, the wiring port and the input/output control card. Mapping relationship information with a provided channel-that is, input/output channel mapping information-may be maintained.

When the channel controller detects a channel failure while driving the simulation control panel, the input/output control device 220 according to an embodiment may recover a failure by switching a line wired to the corresponding failure channel to an available idle channel in the corresponding control card.

After recovery is completed, the input/output control device 220 may update the input/output channel mapping information recorded in the shared storage 270.

Information stored in the shared storage 270 may be viewed and changed by the input/output control device 220 and the nuclear power plant control simulator 230.

The input/output control device 220 may transmit a predetermined warning alarm message to the nuclear power plant control simulator 230 indicating that a control card replacement is necessary when the failure channel recovery fails.

For example, the warning alarm message may include identification information of a control card to be replaced. Here, the control card identification information may be a slot identification number on which the control card to be replaced is mounted.

The nuclear power plant control simulator 230 may transmit a warning alarm message received from the input/output control device 220 to the driver console 240 and/or the instructor terminal 250 and/or the mock control panel maintenance personnel terminal (not shown). have. Through this, replacement processing for the failed control card can be quickly performed.

3 is a view for explaining the structure of an input/output hot-swappable wiring interface providing apparatus provided in a simulation control panel system for nuclear power plant training according to an embodiment of the present invention.

Referring to FIG. 3, the simulation control panel system 300 for nuclear power plant training is largely provided with a main control room control panel 310, an input/output hot-swappable wiring interface, a wiring change device 320, an input/output control card 330, and a nuclear power plant training simulator. It may be configured to include 340 and the shared storage 350.

For convenience of description below, the wiring change device 320 providing an input/output hot-swappable wiring interface will be simply referred to as a'wiring change device 320'.

The wiring change device 320 may be connected to the output terminal of the input/output control card 330.

The wiring change device 320 according to an embodiment may include a wire switching block 321, a channel switching block 322, an operation channel detection module 323, and an operation channel monitoring module 324.

Each of the first to N driving facility panels constituting the main control room control panel 310 may be provided with an analog input device.

The wire switching block 321 may be provided with a plurality of wiring ports as a part that is hard-wired, that is, connected to a cable, with the driving equipment panel through an analog input device.

The channel switching block 322 is connected to the channel slot of the input/output control card 330, and may be connected to the wire switching block 321 by an internal line provided in the wiring changer 320. Here, the internal circuit connection information may be maintained in the shared storage 350.

The channel switching block 322 may perform a channel switching operation according to the control signal of the operation channel monitoring module 324. For example, the channel switching block 322 changes a failure detected channel to a normal idle channel according to the control signal of the operation channel monitoring module 324 while the simulation control panel system 300 for nuclear power plant training is in operation, thereby failing. Can be recovered.

The operation channel detection module 323 may detect whether the channel is operating normally by scanning the channel frame at regular intervals between the wire switching block 321 and the channel switching block 322. If an abnormal channel is detected, the operation channel detection module 323 may transmit a failure event detection signal including the corresponding channel identifier to the operation channel monitoring module 324.

For example, the operation channel detection module 323 may scan the channel frame 26 times or more per second.

When the operation channel monitoring module 324 receives a failure event detection signal from the operation channel detection module 323, it refers to the wire list and input/output channel mapping information maintained in the shared storage 350 and the driving equipment device connected to the corresponding failure channel You can check if there is.

As a result of the check, if there is a device connected to the fault-detected channel, the operation channel monitoring module 324 identifies and selects a normal idle channel-or an available idle channel-so that the device is connected through the selected idle channel. Can be controlled. For example, the operation channel monitoring module 324 may control the channel switching block 322 to change the wiring for the faulty channel.

When the wiring change for the faulty channel is completed, the operation channel monitoring module 324 may update at least one of the input/output channel mapping information and the wire list stored in the shared storage 350 based on the corresponding wiring change history.

In the case of a conventional method of repairing a malfunction of the simulated control panel for nuclear power plant training by restarting the control card after driving and driving the simulation control panel in the event of a channel failure of the input/output control card, an average of 3 hours of maintenance time was required. By providing an input/output hot-swappable wiring interface, there is an advantage in that maintenance can be completed within an average of 5 minutes without stopping the simulation control panel in the event of a channel failure.

In addition, since the technology according to the present invention does not require frequent replacement and replacement of the control card, there is an advantage of preventing failure due to static electricity and short-circuit phenomenon.

In addition, since the input/output channel matching information and wire list information recorded in the shared storage 350 are automatically updated after the channel failure is processed by applying the technology according to the present invention, there is an advantage of preventing malfunction due to information mismatch.

4 is a flow chart for explaining a method for providing an input/output hot-swappable wiring interface in a simulation control panel system for nuclear power plant training according to an embodiment of the present invention.

Hereinafter, for convenience of description, the simulation control panel system for nuclear power plant training will be simply referred to as a system.

Referring to FIG. 4, when the simulation control panel system 300 for nuclear power plant training is driven, the command value calculated by the nuclear power plant training simulator 340 may be transferred to the input/output control card 330 through Ethernet communication. The wiring change device 320 may be connected to the output terminal of the input/output control card 330 to receive a command value, and may transmit the command value to the main control room control panel 310 through cable communication (S410).

The wiring change device 320 may detect an operation state for each channel at regular intervals (S420). As an example, the system may determine whether or not the channel frame is abnormal 26 times or more per second.

The wiring change device 320 may determine whether a faulty channel exists based on the result of the operation state detection (S430).

As a result of the determination, when a faulty channel exists, the wiring change device 320 identifies the available idle state channel, that is, the normally operated idle channel, by referring to the input/output channel mapping information and the wire list stored in the shared storage 350. And it can be selected (S440).

The wiring changer 320 may perform a wiring change operation of switching a circuit connected to a faulty channel detected in the driving state of the simulation control panel for nuclear power plant training to a selected idle state channel (S450).

The wire change device 320 may update the input/output channel information and the wire list based on the wire change information (S460).

5 is a flow chart for explaining a method of providing an input/output hot-swappable wiring interface in a simulation control panel system for nuclear power plant training according to another embodiment of the present invention.

Hereinafter, for convenience of description, the simulation control panel system for nuclear power plant training will be simply referred to as the system 300.

Referring to FIG. 5, when the simulation control panel system for nuclear power plant training is driven, a command value calculated by the nuclear power plant training simulator 340 may be received by the input/output control card 330 through Ethernet communication (S510 ).

The wiring change device 320 may detect an operation state for each channel of the input/output control card 330 at regular intervals (S520). For example, the wiring changer 320 may determine whether or not the channel frame is abnormal 26 or more times per second.

The wiring change device 320 may determine whether a faulty channel exists based on the result of the operation state detection (S530).

As a result of the determination, when a faulty channel exists, the wiring change device 320 may check whether there is an idle channel that can be changed by referring to the input/output channel mapping information and the wire list stored in the shared storage 350 (S540).

As a result of the check, if there is a changeable idle state channel, the wiring change device 320 may change the line connected to the fault channel detected while the system 300 is operating using the idle state channel (S550).

The wire change device 320 may check whether the failure is restored after the wire change (S560).

As a result of the check, when the failure is normally restored, the wiring change device 320 may update the shared storage 350 based on the wiring change history (S570). For example, the wiring change device 320 may update at least one of input/output channel mapping information and a wire list based on the wiring change history.

As a result of the check in step 560, if the failure is not normally recovered, the wiring change device 320 may change the channel state that has failed to recover to the fault state channel and then select a new idle channel to perform the wiring change. have.

If, as a result of the check in step 540, there is no changeable idle channel, the wiring change device 320 may transmit a control card replacement request message including the corresponding control card identification information to the corresponding manager terminal ( S590).

The steps of the method or algorithm described in connection with the embodiments disclosed herein may be directly implemented by hardware executed by a processor, software module, or a combination of the two. The software module may reside in a storage medium (ie, memory and/or storage) such as RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, removable disk, CD-ROM.

An exemplary storage medium is coupled to the processor, which processor can read information from and write information to the storage medium. Alternatively, the storage medium may be integral to the processor. Processors and storage media may reside within an application specific integrated circuit (ASIC). The ASIC may reside within a user terminal. Alternatively, the processor and storage medium may reside as separate components within the user terminal.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

Claims (20)

A main control room control panel including a plurality of operation facility panels for controlling operation facilities for each system; A nuclear power plant training simulator equipped with an education and training control program to perform modeling of power plant components and generate calculated command values through the education and training control program;
An input/output control card having a plurality of channels for receiving the command value and transmitting it to the main control room control panel; And
A wiring changing device that monitors the channel and performs a wiring change when a failure is detected;
The wiring change device,
A wire switching block having a plurality of wiring ports hard-wired with the analog input of the driving facility panel;
A channel switching block connected to a channel slot of the input/output control card and connected to the wire switching block and an internal line;
An operation channel detection module that monitors channel frames for all operation channels between the wire switching block and the channel switching block; And
Mock control panel system for nuclear power plant training, characterized in that it comprises an operation channel monitoring module for performing a wiring change when the failure is determined based on the channel frame monitoring results.
According to claim 1,
The main control room control panel and the wiring change device performs a cable communication, the nuclear power plant training simulator and the input/output control card performs Ethernet communication simulation control panel system for nuclear power plant training.
delete According to claim 1,
When the operation channel detection module detects an abnormal channel frame by monitoring the channel frame at a predetermined cycle, it transmits a failure event signal including a channel identifier corresponding to the detected abnormal channel frame to the operation channel monitoring module. A simulation control panel system for nuclear power plant training.
According to claim 4,
The cycle is a simulation control panel system for nuclear power plant training, characterized in that is set at least 26 times per second.
According to claim 4,
The operation channel monitoring module identifies a faulty channel based on the channel identifier, and if an idle channel capable of changing the wiring is present in the input/output control card corresponding to the faulty channel, the line connected to the faulty channel is in the idle state Mock control panel system for nuclear power plant training, characterized in that to perform a change of the wiring by switching to a channel.
The method of claim 6,
The operation channel monitoring module is a simulation control panel system for nuclear power plant training, characterized in that when the operation facility panel is connected to the identified failure channel, the wiring for the failure channel is changed.
The method of claim 6,
The operation channel monitoring module transmits a control card replacement request message including a corresponding control card identifier to the corresponding manager terminal when the idle channel does not exist.
The method of claim 8,
The control card identifier is a simulation control panel system for nuclear power plant training, characterized in that the slot number in which the corresponding input/output control card is mounted.
The method of claim 7,
Further comprising a shared storage that maintains the wiring list, which is the wiring port allocation information for each operation facility panel, and the input and output channel mapping information, which is mapping relationship information between the wiring port and a channel provided by the input/output control card,
The operation channel monitoring module performs the identification of the idle channel and the wiring change by referring to the wiring list and the input/output channel mapping information, and when the wiring change is completed, the wiring list is based on the wiring change history. And a simulation control panel system for nuclear power plant training, wherein the input/output channel mapping information is updated.
A method for providing an input/output hot-swappable wiring interface in a wiring changing device,
Driving a simulation control panel system for nuclear power plant training;
Receiving a command value calculated through an educational training control program of a nuclear power plant training simulator through an input/output control card;
Transmitting the command value to the main control room control panel; And
And monitoring a channel provided in the input/output control card to perform a wiring change when the system is running when a failure is detected;
The wiring change device,
A wire switching block having a plurality of wiring ports hard-wired with an analog input of a driving equipment panel;
A channel switching block connected to a channel slot of the input/output control card and connected to the wire switching block and an internal line;
An operation channel detection module for monitoring channel frames for all operation channels between the wire switching block and the channel switching block; And
And an operation channel monitoring module that performs a wiring change upon failure determination based on the channel frame monitoring result.
The method of claim 11,
The main control room control panel and the wiring change device performs a cable communication, the nuclear power plant training simulator and the I/O control card perform Ethernet communication.
delete The method of claim 11,
When the operation channel detection module detects an abnormal channel frame by monitoring the channel frame at a predetermined cycle, it transmits a failure event signal including a channel identifier corresponding to the detected abnormal channel frame to the operation channel monitoring module. I/O hot swappable wiring interface.
The method of claim 14,
The period is set to 26 or more times per second, the method of providing an input/output hot-swappable wiring interface.
The method of claim 14,
The operation channel monitoring module identifies a faulty channel based on the channel identifier, and if an idle channel capable of changing the wiring is present in the input/output control card corresponding to the faulty channel, the line connected to the faulty channel is in the idle state A method of providing an input/output hot-swappable wiring interface, characterized in that the wiring is changed by switching to a channel.
The method of claim 16,
The operation channel monitoring module provides an input/output hot-swappable wiring interface, characterized in that when the operation facility panel is connected to the identified faulty channel, wiring changes to the faulty channel are performed.
The method of claim 16,
The operation channel monitoring module provides an input/output hot-swappable wiring interface, characterized in that when the idle channel does not exist, a control card replacement request message including the corresponding control card identifier is transmitted to the corresponding manager terminal.
The method of claim 18,
The control card identifier is a method for providing an input/output hot swappable wiring interface, characterized in that the corresponding input/output control card is a slot number.
The method of claim 17,
The system further includes a shared storage that maintains input/output channel mapping information, which is mapping relation information between the wiring port allocation information for each operation facility panel, and the channel provided by the wiring port and the input/output control card. ,
The operation channel monitoring module performs the identification of the idle channel and the wiring change by referring to the wiring list and the input/output channel mapping information, and when the wiring change is completed, the wiring list is based on the wiring change history. And updating the input/output channel mapping information.

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