JP5377407B2 - Method for updating plant control device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an update method by which a controller is updated without spoiling a plant monitoring function. <P>SOLUTION: The update method comprises: a first step of connecting an input/output unit of a newly constructed failure display device 2 with a CPU unit 3a of an update device 3, connecting the input/output unit and an input/output unit 3b of the update device 3 with an external cable 1d via a temporary cable, and removing an existing failure display device 1; a second step of shifting a CPU unit 2a and a first input/output unit to a housing 1a to connect both with each other, and connecting the external cable 1d with a connection part 2g of the first input/output unit; a third step of releasing connection between a second input/output unit of the newly constructed failure display device 2 and the CPU unit 3a, connecting the second input/output unit with the CPU unit 2a, and connecting the external cable 1d with the connection part 2g of the second input/output unit; and a fourth step of repeating the third step. <P>COPYRIGHT: (C)2012,JPO&amp;INPIT

Description

  The present invention relates to a method for updating a plant control apparatus such as a nuclear power plant, and more particularly to a method for updating a plant control apparatus that can continuously maintain the function of the plant control apparatus even when the plant control apparatus is updated.

  Plants such as nuclear power plants use a device that centrally controls and monitors a large number of process signals and status signals. A large number of input signals from each system and various subsystems in the plant are captured and processed centrally. Centralized control from the central control room is possible.

  Such a centralized monitoring and control apparatus has a failure display function for displaying an abnormality or failure of various devices arranged in various places in the plant as one of its functions. A conventional configuration example of this failure display function will be described with reference to FIG.

  The failure display device 1 receives signals from a large number of causal contacts for notifying abnormality of process devices and various devices in various places in the plant, and displays information on the occurrence of the abnormality on the display device 8.

  The failure display device 1 includes a plurality of control units 1b that receive a signal from the causal contact 9 and output a failure display signal to the display device 8, an in-panel wiring 1f, and a connector 1g such as a connector or a terminal block. And housed in the housing 1a.

  The causal contact 9 to which an abnormal signal of a process device or various devices in various places in the plant is input is connected to the control unit 1b via the external cable 1d, the connector 1g, and the in-panel wiring 1f.

  In the control device configured as described above, the control unit 1b holds the input signal when a failure occurrence signal is input from the causal contact 9, and sends a predetermined failure display signal to the in-panel wiring 1f, the connector 1g and the external cable. By outputting it to the display device 8 through 1d, a predetermined display is blinked and an abnormal state of the plant is displayed as an alarm. It also outputs sound signals to sound generators such as horns, bells, and buzzers. Further, in response to the confirmation operation signal from the operator, the control of the display signal such as the low-speed blinking, continuous lighting, and extinction is performed according to the stop of the alarm sound and the operation continuation state of the cause contact 9.

  By the way, in the plant control device that monitors the entire plant described above, the control device is updated at the time of periodic inspection, etc., but the plant's common system and subsystem equipment are still operating even if the main engine is stopped. The control device has been updated in as short a time as possible (Patent Document 1).

A conventional method for updating a failure display apparatus will be described with reference to FIG.
Before the update, a plurality of existing control units 1b are accommodated in the casing 1a of the failure display device 1 and are in operation (FIG. 9A). The renewal method is carried out in such a manner that the case 1a is left as it is, the control unit 1b attached inside the panel is removed, and the new control device 2 is installed in the case 1a.

  At the time of update, the new control device 2 is temporarily placed near the housing 1a as a temporary failure display device, and external cables 1d (fault contact input external cable and display output external cable) connected to the existing failure display device 1 are connected. After switching from the existing failure display device 1 to the new failure display device 2 and shifting the failure display function to the new control device 2 side, the existing control unit 1b is removed (FIG. 9B). That is, during the removal of the existing failure display device 1, the new control device 2 is used as an existing backup, so that the failure display function can be maintained. After the removal is completed, the new control device 2 is installed in the panel (FIG. 9C). After the installation in the panel is completed, the operation with the new control device 2 is started and the update is completed (FIG. 9 (d)).

JP 2005-51861 A

  When updating the control device during periodic inspections of the plant, the plant's common system and subsystem equipment are operating even if the main engine is stopped. Monitoring of these devices can be continued even during periodic inspections. It is necessary, and when updating a failure display device, it is required that the function can be updated without stopping.

  In the conventional updating method described above, when installing the new control device 2 in the panel, as shown in FIG. 9 (c), the work process of dismantling, moving, mounting in the panel, and restoring the new control device is required. During this time, the operation of the new control device 2 had to be stopped for a long time, and the failure display function could not be maintained continuously. On the other hand, in order to maintain the monitoring function even while the new control device 2 is being updated, it is conceivable to provide a set of control devices of the same function and the same scale as the new control device 2 and substitute the fault display function. There was a problem that the burden of renewal costs increased.

  The present invention has been made in order to solve the above-mentioned problems, and at the time of updating the control device, the function stop time associated with the update work is suppressed to a short time (several minutes), thereby reducing the cost of the plant. It is an object of the present invention to provide an update method for a plant control apparatus that can update the control apparatus without substantially impairing the monitoring function.

  In order to solve the above problems, a method for updating a plant control apparatus according to the present invention is housed in a casing, and is provided in a plurality of input / output units and the respective input / output units via cabling contacts and display devices via external cables. In the update method of the plant control device for updating the existing fault display device having the connection section connected to the new fault display device, an input / output unit other than the first input / output unit of the new fault display device is connected to the update device. In addition to connecting to the CPU unit, the input / output unit other than the first input / output unit and the input / output unit of the updating device are connected to an external cable via a temporary cable, and the existing fault display device is removed from the housing. When the first step, the CPU unit of the new failure display device and the first input / output unit are moved to the housing and connected to each other The second step of connecting the external cable to the connection portion of the first input / output unit, and the connection between the second input / output unit of the new failure display device and the CPU unit of the update device, A third step of moving the second input / output unit to the casing and connecting the second input / output unit to the CPU unit of the newly installed fault display device, and connecting an external cable to the connection portion of the second input / output unit; And a fourth step of repeating the third step until the last input / output unit is moved from the third input / output unit of the newly installed fault display device to the housing.

  According to the present invention, at the time of updating the plant control device, the function monitoring time associated with the renewal work is suppressed to a short time (about several minutes), so that the control device is not substantially impaired at a low cost. It is possible to provide a method for updating the plant control apparatus that can perform the update of the above.

The figure which shows the 1st step of the update method which concerns on the 1st Embodiment of this invention. The figure which shows the 2nd step of the update method which concerns on the 1st Embodiment of this invention. The figure which shows the 3rd step of the update method which concerns on the 1st Embodiment of this invention. The figure which shows the 4th step of the update method which concerns on the 1st Embodiment of this invention. The figure which shows the 1st step of the update method which concerns on the 2nd Embodiment of this invention. The figure which shows the last step of the update method which concerns on the 2nd Embodiment of this invention. The figure which shows the 1st step of the update method which concerns on the 3rd Embodiment of this invention. The block diagram of the existing fault display apparatus which concerns on this invention. The figure which shows the update procedure of the conventional existing fault display apparatus.

An embodiment of a method for updating a plant control apparatus according to the present invention will be described with reference to the drawings.
[First Embodiment]
A method for updating the plant control apparatus according to the first embodiment of the present invention will be described with reference to FIGS.

(Constitution)
In the first embodiment, when the existing failure display device 1 stored in the housing 1 is updated to the update failure display device 2, the update is performed through four steps. FIG. 1 is a diagram showing the first step, and is an overall configuration diagram of each device used for updating the failure display device. This apparatus includes an existing failure display device 1, an update failure display device 2, a switching device 3, a temporary switching device 4, a display device 8, a cause contact 9, and an external cable 1d.

  The existing failure display device 1, the causal contact 9 and the display device 8 connected to the existing failure display device 1 have the same configuration as the conventional example shown in FIG.

  In addition, the control unit 1b in the existing failure display device 1 is a target composed of either a hard logic or a digital controller that uses a microprocessor and performs software control.

  On the other hand, as described below, the control device for the update failure display device 2 employs a digital control system that uses a microprocessor and performs control by software.

  The update failure display device 2 is a control device that is an update target of the existing failure display device 1, and includes a CPU unit 2a, a plurality of input / output units 2b-1 to 2b-3, the CPU unit 2a, and the input / output unit. 2b-1 to 2b-3, a plurality of transmission cables 2c-1 to 2c-3, a plurality of update panel cables 2f-1 to 2f-3 corresponding to the input / output units, and an external cable 1d. It comprises a plurality of connectors 2g-1 to 2g-3 to be connected.

  The updated failure display device 2 is housed in the housing 1 by the update work, and the external cable 1d is connected to each connector 2g-1 to 2g-3. That is, the signal from the causal contact 9 is input to the input / output unit 2b-1 via the external cable 1d, the connector 2g-1, and the in-panel cable 2f-1, and between the input / output unit 2b-1 and the CPU unit 2a. Is input to the CPU unit 2a via the transmission cable 2c-1. A predetermined failure display output signal is output from the CPU unit 2a to the input / output unit 2b-1 via the transmission cable 2c-1, and the input / output unit 2b-1 is connected to the in-update panel cable 2f-1 and the connector 2g. -1, output to the display device 8 via the external cable 1d. In the input / output units 2b-2 and 2b-3, similarly to the input / output unit 2b-1, a CPU unit, a transmission cable, an in-panel cable, and a connector are connected and operate similarly.

  The switching device 3 includes a CPU unit 3a, an input / output unit 3b, a transmission cable 3c for connecting the CPU unit 3a and the input / output unit 3b, and a connector 3g for connecting the in-panel cable 3f and the external cable 1d. It is configured.

  The CPU unit 3a has the same function as the CPU unit 2a, and the input / output unit 3b has the same function as the input / output units 2b-1 to 2b-3. Temporary cables 3d-1 to 3d-3 are cables for connecting to the external cable 1d during the update operation and switching the input / output signals to the new failure display device 2 and the switching device 3.

  The temporary failure display device 4 includes a part of the new failure display device 2, the switching device 3, the transmission cable 3c, and the temporary cables 3d-1 to 3d-3, and backup (substitute) of the existing failure display device 1 during the update period. ).

(Function)
The update from the existing new fault display device 1 to the new fault display device 2 is performed while configuring the temporary fault display device 4 at each step using the switching device 3 and establishing a backup. The specific update step will be described below.

(First step)
The first step of the update procedure of the failure display device will be described with reference to FIG.
In the first step, first, backup of the existing failure display device 1 is established. As shown in FIG. 1, a transmission cable 2c is connected between the CPU unit 3a of the switching device 3 and the input / output units 2b-2 and 2b-3 of the new failure display device 2 and the input / output unit 3a of the switching device 3 in advance. -2, 2c-3 (solid line part of FIG. 1) and 3c, and it is made into an operation state.

  Further, the other end of the temporary cable 3d-1 having one end connected to the connector 3g of the switching device 3 is prepared at a position corresponding to the connector 1g-1. Furthermore, the other ends of the temporary cables 3d-2 and 3d-3, each having one end connected to each of the connectors 2g-2 and 2g-3, are prepared at positions corresponding to the connectors 1g-2 and 1g-3, respectively.

  When the connection of the external cable 1d is switched from the connectors 1g-1 to 1g-3 of the existing failure display device 1 to the temporary cables 3d-1 to 3d-3, the existing failure display function is shifted to the temporary failure display device 4. Establish a backup.

  After the backup is established, the existing failure display device 1 is removed. In addition, the connection method of the external cable 1d, the in-panel connection part, and the temporary cables 3d-1 to 3d-3 can switch the input / output line to the temporary failure display device 4 in a short time by using, for example, a connector. .

  After the backup is established, the CPU unit 3a of the switching device 3 functions as a replacement for the CPU unit 2a of the new failure display device 2, and the input / output unit 3b functions as an alternative function of the input / output unit 2b-1 of the new failure display device 2. Plays.

  Therefore, since the CPU unit 2a and the input / output unit 2b-1 connected by the transmission cable 2c-1 are not used as a temporary failure display device, the existing control unit together with the related on-board cable 2f-1 and the connection part 2g-1 are used. After 1b is removed, it can be moved into the housing 1a.

(Second step)
FIG. 2 is a diagram showing a state in which the CPU unit 2a and the input / output unit 2b-1 of the new failure display device 2 have been moved to the housing 1a in the first step, and an update operation in the next second step. .

  After the newly installed CPU unit 2a and the input / output unit 2b-1, the in-panel cable 2f-1 and the connector 2g-1 are moved into the housing 1a, the CPU unit 2a and the input / output unit 2b-1 are connected. After connecting to the terminal 2x-2 of the CPU unit 2a so that the connection on the CPU unit 2a side of the transmission cable 2c-1 is the same as that of the input / output object that the input / output unit 2b-2 has been operated so far, it is in an operating state. Then, the cable connected to the temporary cable 3d-2 is connected to the connector 2g-1 in the panel.

  Thereby, the input / output processing operation which has been performed by the input / output unit 2b-2 and the CPU unit 3a of the switching device 3a is switched to the operation by the new input / output unit 2b-1 and the CPU unit 2a. After the switching, the input / output unit 2b-2 is released from the role of backup, so the temporary cable 3d-2 and the connection part 2g-2 are disconnected, and the transmission cable 2c-2 and the connection part 3x-2 of the CPU unit 3a are disconnected. And the temporary failure display device 2 can be separated and installed in the existing housing 1a.

(Third step)
FIG. 3 is a diagram illustrating a state after the input / output unit 2b-2, the in-panel cable 2f-2, the connection portion 2g-2, and the transmission cable 2c-2 are moved into the existing casing 1a in the second step. FIG. 10 is a diagram showing an update operation in the next third step.

  The connection on the CPU unit side of the transmission cable 2c-2 is connected to the terminal 2x-3 of the CPU unit 2a so as to be the same as the input / output object carried by the input / output unit 2b-3, and the input / output unit 2b-2 is operated. After the state, the external cable 1d connected to the temporary cable 3d-3 is connected to the connector 2g-2 in the panel.

  As a result, the input / output processing operation that has been performed by the input / output unit 2b-3 and the CPU unit 3a of the switching device 3a is switched to the operation of the new input / output unit 2b-2 and the CPU unit 2a. After the switching, the input / output unit 2b-3 is released from the role of backup, so the temporary cable 3d-3 and the connection part 2g-3 are disconnected, and the transmission cable 2c-3 and the connection part 3x-3 of the CPU unit 3a are disconnected. It is possible to perform installation work in the existing housing 1a separately from the temporary installation.

(4th step)
FIG. 4 is a diagram illustrating a state after the input / output unit 2b-3, the in-panel cable 2f-3, the connection portion 2g-3, and the transmission cable 2c-3 are moved into the existing casing 1a. It is a figure which shows the update process of 4 steps.

  The connection on the CPU unit side of the transmission cable 2c-3 is connected to the terminal 2x-1 of the CPU unit 2a so as to be the same as the input / output object carried by the input / output unit 3b, and the input / output unit 2b-3 is put into an operating state. Then, the cable connected to the temporary cable 3d-2 is connected to the connector 2g-3 in the panel.

  As a result, the input / output processing operation that has been performed by the input / output unit 3b and the CPU unit 3a of the switching device 3a is switched to the operation by the new input / output unit 2b-3 and the CPU unit 2a. After the switching, the input / output unit 3b and the CPU unit 3a of the switching device 3 are released from the backup role, and the installation of the update failure display device 2 in the existing casing 1a is completed.

In the above embodiment, an example of a failure display device including three input / output units has been described. However, the present invention is not limited to this, and the number of input / output units may be two or four or more.
Further, the connection of the transmission cable 2c-1 to the terminal 2x-2 of the CPU unit 2a may be before the transfer to the housing 1.

  As described above, according to the first embodiment, when the control device is updated, the device function is stopped only during the external cable switching work due to the update work and the function stop time. Can be suppressed to a short time (about several minutes). In addition, the number of points to be switched can be divided, and the range affected can be narrowed and updated. As a result, it is possible to update the apparatus at a low cost without impairing the plant monitoring function.

[Second Embodiment]
A method for updating the plant control apparatus according to the second embodiment of the present invention will be described with reference to FIGS.
(Constitution)
The second embodiment is characterized in that the CPU unit of the newly installed fault display device is duplicated and one unit is used as a regular system and the other unit is used as a standby system.

  FIG. 5 is a diagram showing a first step of the update work according to the second embodiment, and is an overall configuration diagram of each device used for updating the failure display device. The update failure display device 2 includes two CPU units 2a-1, 2a-2, input / output units 2b-1 to 2b-3, transmission cables 2c-1-1 to 2c-1-2, and 2c-2-1. ˜2c-2-2, 2c-3-1 to 2c-3-2, connection portions 2g-1 to 2g-3, and in-panel cables 2f-1 to 2f-3 of the update failure display device. The updated failure display device 2 is accommodated in the housing 1 by the update work.

  Each transmission cable 2c-1-1-2c-3-2 is connected between the two CPU units 2a-1, 2a-2 and the input / output units 2b-1-2b-3. The on-board cables 2f-1 to 2f-3 of the update display device are connected to the input / output units 2b-1 to 2b-3 and the connection portions 2g-1 to 2g-3. Connection portions 2g-1 to 2g-3 are portions for connecting external cables. The method for displaying the failure is basically the same as in the first embodiment, but the CPU unit is duplicated, and usually one is used as a regular system and the other is used as a standby system.

  As shown in FIG. 6, the input / output units 2b-1 to 2b-3 are connected to the two CPU units of the CPU unit 2a-1 and the CPU unit 2a-2 through the transmission cables 2c-1-1-2c-3-2. Usually, an input signal is sent to one of the two CPU units, and a control output signal of the CPU unit is received. When the CPU unit fails, the system is improved by switching to the other CPU unit.

(Function)
An update procedure of the failure display device configured as described above will be described.
The configuration of the first step of the update procedure is the same as that of the first embodiment except that the CPU unit 2a-2 of the update failure display device is used as the CPU unit of the switching device 3.

  Next, the temporary failure display device 4 is configured, the external cable 1d is connected from the existing panel to the temporary cable of the temporary failure display device 4, and the failure display function is performed by the temporary failure display device 4. The existing failure display device is removed, and then a part of the updated failure display device that is not used as the temporary failure display device 4 is moved into the existing panel housing, and the CPU unit, input / output unit, By connecting the transmission cable, the cable in the panel, and the connection part, and switching the external cable from the temporary cable to the connection part, a part of the failure display function is partially transferred to the update device after installation.

  Then, switching is sequentially performed in the same manner as in the first embodiment, and all the components of the update failure display device 2 except for the CPU unit 2a-2 are transferred to the housing 1a. The CPU unit 2a-2 is finally moved to the housing 1a, and the transmission cables 2c-1-2, 2c-2-2, 2c-3-2 are connected to the input / output units 2b-1 to 2b-3, and the redundant operation is performed. Switch to operation. FIG. 6 shows a state where the update is completed.

  According to the second embodiment, since the CPU unit of the switching device 3 uses the CPU unit of the redundant updating device, the reliability of the failure display device can be improved, and the failure display can be performed at low cost and in a short time. The device can be updated.

[Third Embodiment]
A method for updating the plant control apparatus according to the third embodiment of the present invention will be described with reference to FIG.
(Constitution)
The third embodiment is characterized in that the failure point screen display device 5 is provided in the switching device 3 and an input unit is provided instead of the input / output unit, and other configurations are the same as those of the first embodiment.

  The switching device 3 according to the third embodiment includes a CPU unit 3a, an input unit 3bi, a transmission cable 3c, an in-panel cable 3f, a connection portion 3g, a failure screen display device 5, and a transmission cable 5c. The failure point screen display device 5 can be a general-purpose personal computer or the like.

(Function)
The CPU unit 3a, the transmission cable 3c, the in-panel cable 3f, and the connection portion 3g constituting the switching device 3 have the same functions as the CPU unit 2a, the transmission cable, and the in-panel cable connection portion of the update failure display device 2, The unit 3bi has a function of performing an input function among the functions of the input / output unit of the update device.

  The failure point screen display device 5 is connected to the CPU unit 3a via the transmission cable 5c, and the signal of the causal contact 9 where the failure has occurred is sent to the external cable 1d, the connection portion 3g, the in-panel cable 3f, the input unit 3bi, and the transmission cable 3c. The CPU unit 3a outputs information corresponding to the failure point to the failure point screen display device 5, and the failure point screen display device 5 displays the failure information such as characters, colors, and blinks on the monitor. Display in a form that the operator can recognize. In addition, the operator is informed of the failure by sound using a sound generator (not shown) connected to the failure point screen display device 5. That is, the output of the switching device 3 is not output to the display device 8 but can be substituted by the failure point screen display device 5.

  The configuration in the first step of the update procedure is the same as that of the first embodiment except that the failure point display device 5 is connected to the switching device 3 and the input / output unit is configured only by the input unit 3bi. It is.

  Next, the temporary failure display device 4 is configured, the external cable is connected from the existing panel to the temporary cable, the failure display function is performed by the temporary failure display device 4, and then the existing device on the existing panel is removed. After that, install a part of the updated failure display device that is not used as a temporary failure display device in the existing panel housing, and complete the installation CPU unit, I / O unit, transmission cable, in-panel cable, connection Part of the failure display function is partially transferred to the update device after installation by switching the external cable from the temporary cable to the connection part.

  Then, switching is sequentially performed in the same manner as in the first embodiment, and all the components of the updated failure display device 2 are installed in the housing 1a, and the updating operation is completed.

  According to the third embodiment, it is possible to increase the reliability of the switching device 3 by providing the switching device 3 with the function of only the input unit and to construct the switching device 3 at low cost. Although the failure point screen display device 5 is used in place of the output unit, the failure point screen display device 5 can be manufactured at a low cost by using a general-purpose personal computer or the like, so that the cost increases due to the addition of the failure point screen display device 5. Since the cost reduction by omitting the output unit is larger, the cost reduction effect is great.

  DESCRIPTION OF SYMBOLS 1 ... Existing failure display apparatus, 1a ... Housing, 1b ... Existing control unit, 1d ... External cable, 1f ... Existing panel cable, 1g-1, 1g-2, 1g-3 ... Connection part, 2 ... Update failure display Device, 2a ... CPU unit, 2b-1, 2b-2, 2b-3 ... I / O unit, 2c-1, 2c-2, 2c-3 ... transmission cable, 2c-1-1, 2c-2-1 2c-3-1 ... transmission cable, 2c-1-2, 2c-2-2, 2c-3-2 ... transmission cable, 2f-1, 2f-2, 2f-3 ... update board cable, 2g-1 , 2g-2, 2g-3 ... connector, 3 ... switching device, 3a ... CPU unit, 3b ... input / output unit, 3bi ... input unit, 3c ... transmission cable, 3d-1,3d-2,3d-3 ... Temporary cable, 4 ... Temporary failure display device, 5 ... Failure point screen display device, 5c Transmission cable, 8 ... display device, 9 ... cause contact.

Claims (3)

The existing failure display device, which is housed in the housing and has a plurality of input / output units, the causal contacts provided in each of the input / output units and the connection part connected to the display device via an external cable, is updated to a new failure display device. In a method for updating a plant control device,
An input / output unit other than the first input / output unit of the new failure display device is connected to the CPU unit of the update device, and an input / output unit other than the first input / output unit and the input / output unit of the update device are temporarily installed. A first step of connecting to an external cable via a cable and removing the existing fault display device from the housing;
A second step of moving the CPU unit of the newly installed fault display device and the first input / output unit to the housing and connecting them, and connecting an external cable to the connection portion of the first input / output unit; ,
The connection between the second input / output unit of the newly installed fault display device and the CPU unit of the updating device is released, and the second input / output unit is moved to the housing to move the second fault input / output unit. A third step of connecting to the CPU unit and connecting an external cable to the connection portion of the second input / output unit;
A fourth step of repeating the third step until the last input / output unit is moved from the third input / output unit of the newly installed fault display device to the housing;
A method for updating a plant control apparatus, comprising:   2. The control device updating method according to claim 1, wherein the CPU unit of the new failure display device is duplicated, and one of the CPU units is used as a CPU unit of the updating device during an updating operation.   2. The plant control device updating method according to claim 1, wherein the updating device includes an input unit instead of an input / output unit, and a failure point screen display device is connected to the updating device.

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