JP3556368B2 - Alarm data collection device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a generated alarm data collection device that collects and processes alarm data obtained from an alarm window on a plant monitoring and control panel that is turned on or off in response to a failure cause signal from a plant such as a power generation plant.
[0002]
[Prior art]
Conventionally, for example, in a nuclear power plant, as shown in FIG. 4, a plant monitoring and control panel 2 installed in a control room 1 is provided with an alarm collective window 3 for indicating the state of the equipment. Therefore, when an abnormality occurs in the equipment of the plant, the alarm window 4 corresponding to the abnormality is turned on to notify the operator, and plays an important role in checking the status of the plant and the equipment.
[0003]
Conventionally, as for the alarm data of the alarm window 4, the generated alarm has been confirmed by the operator and recorded and evaluated by a human system on paper. For this reason, when the plant trips, a large number of alarms are generated at the same time, and the operation of recording the alarm data places a heavy burden on the operator. Also, when the output of the plant rises, an alarm is generated at a low output and the alarm disappears when the rated output is reached.However, when an alarm indicating an abnormality is generated among those alarms is there. Although an alarm indicating this abnormality needs to be determined at an early stage, since it currently depends on humans, a great deal of effort is required to make a quick determination.
[0004]
[Problems to be solved by the invention]
By the way, the target alarm window to be recorded of the power plant extends to 1500 to 2000 items. Conventionally, at the time when the plant should be operated and when it needs to be stopped, the operator confirms all the target alarm windows, It was recorded on paper.
[0005]
Therefore, when a large number of alarms are generated simultaneously, the burden on the operator is large, and there is a possibility that erroneous recording or erroneous judgment of the generated alarm data may be caused.
[0006]
The present invention has been made in view of the above circumstances, and efficiently and easily collects and processes a large amount of alarm data, thereby reducing the burden on the operator, and erroneously recording and erroneously determining the generated alarm data. It is an object of the present invention to provide an occurrence alarm data collection device capable of reducing the number of occurrence alarms.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, a first aspect of the present invention is a TV camera for photographing an alarm collective window on a plant monitoring control panel in which an alarm window is turned on in response to a failure cause signal from a plant; An interactive input means having an alarm window simulated display screen having the same layout as the alarm collecting window on the control panel; and automatically saving alarm data items based on a luminance difference of an alarm window image obtained from the TV camera. An alarm storage means for storing an alarm data item by selecting a corresponding coordinate of an alarm generated by the interactive input means, and an alarm generated in advance by at least one of a plant operation state and an equipment inspection state. and storing means for setting a predictable alarm as prediction alarm data, and saved generated alarm data by said generating alarm storage means and the prediction alarm data And a plant state comparison means for extracting, to determine an alarm occurring in the normal state, characterized in that a configuration for detecting an abnormal item.
[0008]
In order to solve the above-described problem, a second aspect of the present invention is a TV camera that captures an alarm collective window on a plant monitoring and control panel in which an alarm window is turned on in response to a failure cause signal from a plant, and the TV camera. A warning alarm storage unit that automatically saves a warning data item based on a luminance difference of a warning window image obtained from the apparatus, and plant process data taken from a plant monitoring computer are input, and based on the plant process data, Input determination means for predicting an alarm item to be generated; an alarm item generated based on the plant process data; an alarm that can be predicted in advance based on an operation state of the plant; and an alarm that can be predicted in advance based on an inspection state of equipment. among them, a storage unit for setting at least one alarm item or an alarm as a prediction alarm data, the prediction alarm And a plant state comparing means for extracting a difference between the data and the generated alarm data stored by the generated alarm storage means, wherein an alarm generated in a normal state is determined and an abnormal item is detected. I do.
[0009]
Claim 3 is the generation alarm data collection apparatus of claim 1, wherein, the interactive input means, to recall the past alarm data of the same plant state saved as a database by specifying a plant state in which data collection, It is characterized by supporting judgment .
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0015]
FIG. 1 is a block diagram showing an embodiment of an alarm data collection device according to the present invention. In FIG. 1, a plant monitoring and control panel 6 is installed in a control room 5 of a power plant, and an alarm window 8 in an alarm collective window 7 corresponding to a failure cause signal of the plant is turned on. Is notified.
[0016]
The alarm data collection device 9 according to the present embodiment generally includes a data processing device 10, a storage device 11, a CRT display device 12, a printing device 13, and a TV camera 14. Since the data processing device 10 has the TV camera 14 and the interactive input device 15 as input means for turning on or off the alarm window 8, each input means will be described first. This input means can be selected as needed.
[0017]
The first input means captures an image of the alarm collecting window 7 of the plant monitoring and control panel 6 installed in the control room 5 of the power generation plant with the TV camera 14, and the input determination unit 16 performs numerical values based on the brightness difference of the captured image. A lighting process is performed to determine whether the alarm window 8 is on or off.
[0018]
FIG. 2 is a schematic diagram showing the generation alarm data collection processing by image processing in the present embodiment, and shows the processing procedure of the input determination unit 16. In FIG. 2 , an input image (warning window image) 17 obtained by the TV camera 14 is digitized by an A / D converter 18 based on a luminance difference, and then binarized. Next, the coordinates on the image of the binarization processing data 19 are compared with the alarm window coordinate data 20 preset in the storage device 11 to obtain an alarm window on / off state 21.
[0019]
The second means is illuminated on the screen of the interactive input device 15 as an interactive input means having a display screen simulating the alarm collecting window 7 of the plant monitoring and control panel 6 installed in the control room 5 of the power plant. Select the coordinates of the alarm window 8 that is running.
[0020]
FIG. 3 is a schematic diagram showing the generated alarm data collection processing by the interactive input device in the present embodiment. As shown in FIG. 3, when the user selects the alarm window panel number 24 to which the lit alarm collective window 23 belongs on the alarm window panel selection screen 22 displayed on the interactive input device 15, the alarm window selection screen 25 is displayed. By sequentially selecting the displayed alarm windows 26 in the alarm window selection screen 25, an alarm window turning-off state 27 is obtained. At the time of selection, the alarm name 28 corresponding to the alarm window 26 is searched and displayed as auxiliary information.
[0021]
The alarm data items extracted by the first and second input means are, as shown in FIG. 1, a corresponding alarm from the alarm window names set in the storage device 11 in the alarm storage section 29 as the alarm storage means. The data items are extracted, added to the date and time of data collection, and stored in the storage device 11.
[0022]
On the other hand, the plant process data taken into the existing plant monitoring computer 30 in the power plant is taken into the input judgment unit 32 as the input judgment means of the data processing device 10 through the transmission line 31. The input determination unit 32 predicts an alarm item generated based on the plant process data, and sets this in the storage device 11 as predicted state data.
[0023]
Further, the alarm data items that are predicted in advance in the plant process data, the operation state of the plant, and the inspection of the equipment are set in the storage device 11, and are stored in the storage unit 29 with the predicted alarm data and the generated alarm data. The generated alarm data is compared with a plant state comparing unit 33 as a plant state comparing means, and only the alarm data items having differences are extracted and stored again.
[0024]
These alarm data are transmitted to the external receiving device 35 through the transmission line 34. In addition, the CRT display device 12 displays information as needed in the processing process of the data processing device 10, and similarly, the printing device 13 prints information as needed in the processing process of the data processing device 10.
[0025]
The interactive input device 15 is used not only for the data input means as described above, but also for recalling the stored alarm data items by designating the data collection timing. That is, the interactive input device 15 recalls the past alarm data of the same plant status stored in the storage device 11 as a database by designating the plant status for which data has been collected, and assists the determination.
[0026]
Next, the operation of the above embodiment will be described.
[0027]
In the generated alarm data collection device 9 as described above, the generated alarm data can be automatically and easily stored by the TV camera 14, the input determination unit 16 and the generated alarm storage unit 29, while the interactive input device 15 and the The occurrence alarm storage unit 29 can easily perform the operation manually. As a result, the burden on the operator can be reduced, erroneous recording and erroneous determination of alarm data can be reduced, and alarm data can be efficiently collected and stored.
[0028]
Further, the plant process data taken in by the plant monitoring computer 30 is input to the input determining unit 32 through the transmission line 31, and an alarm item generated based on the plant process data is predicted by the input determining unit 32. Supporting the detection of abnormal items by setting in the storage device 11 as predicted state data and extracting the difference between the predicted alarm data and the generated alarm data stored by the generated alarm storage unit 29 by the plant state comparison unit 33 Can be.
[0029]
Further, an alarm that can be predicted in advance based on the operation state of the plant and the inspection state of the equipment at the time of data collection is set in the storage device 11 as predicted state data, and the predicted alarm data and the generated alarm stored in the generated alarm storage unit 29 are stored. By extracting the difference from the data by the plant state comparison unit 33, detection of an abnormal item is supported, and an alarm generated in a normal state can be automatically determined.
[0030]
Furthermore, by specifying the data collection timing with the interactive input device 15, it is possible to recall past occurrence alarm data, so that the progress of the occurrence alarm in a time series can be known, and the past data can be known. This makes it easier to make a comparison with the above, and makes it possible to provide judgment support with a reduced burden on the operator.
[0031]
Then, by arranging the external receiving device 35 and outputting data to the outside of the plant, the state of the plant can be confirmed at a place other than the control room.
[0032]
【The invention's effect】
As described above, according to the first aspect of the present invention, there is provided a TV camera for photographing an alarm collective window on a plant monitoring control panel in which an alarm window is turned on in response to a failure cause signal from a plant; Interactive input means having an alarm window simulated display screen having the same layout as the alarm collective window on the panel, and automatically saving alarm data items based on the luminance difference of the alarm window image obtained from the TV camera; An occurrence alarm storage means for saving an alarm data item by selecting a corresponding coordinate of an occurrence alarm by the interactive input means, and an occurrence is predicted in advance based on at least one of a plant operation state and an equipment inspection state. alarm memory means for setting a prediction alarm data that can be the difference between the saved generated alarm data by said generating alarm storage means and the prediction alarm data The system is provided with a plant state comparison means for issuing a warning, which determines an alarm that occurs in a normal state and detects an abnormal item, so that even in a situation where a large number of alarms are generated almost simultaneously, data can be accurately collected. It can be collected and stored, eliminating the need to change plant equipment. Therefore, the burden on the operator can be reduced, erroneous recording and erroneous determination of alarm data can be reduced, and alarm data can be efficiently collected and stored.
[0033]
According to the second aspect, a TV camera for photographing an alarm collective window on a plant monitoring control panel in which an alarm window is turned on in response to a failure cause signal from a plant, and a luminance difference between an alarm window image obtained from the TV camera. Alarm storage means for automatically storing alarm data items based on the data, and input determining means for inputting plant process data taken from the plant monitoring computer and predicting alarm items to be generated based on the plant process data And an alarm item that is generated based on the plant process data, at least one of an alarm item or an alarm that can be predicted in advance according to the operation state of the plant and an alarm that can be predicted in advance according to the inspection state of the device. A storage unit for setting as predicted alarm data, and the predicted alarm data and the generated alarm storage unit. A plant state comparing means for extracting a difference from the stored generated alarm data is provided to determine an alarm generated in a normal state and detect an abnormal item. Can assist in detection.
[0034]
According to the third aspect, the interactive input means according to the first aspect recalls the past alarm data of the same plant state saved as a database by designating the plant state for which data has been collected, and assists the judgment. In addition to the effects of claim 1, it is possible to know the progress of alarms generated in a time series, to facilitate comparison with past data, and to perform judgment support with reduced burden on the operator.
[Brief description of the drawings]
FIG. 1 is a block diagram of an overall configuration showing an embodiment of an occurrence alarm data collection device according to the present invention.
FIG. 2 is a schematic diagram showing an example of an alarm data collection process by image processing in the embodiment of FIG. 1;
FIG. 3 is an exemplary diagram showing an example of an alarm data collection process performed by the interactive input device in the embodiment of FIG. 1;
FIG. 4 is a schematic diagram showing a plant monitoring control panel in a general nuclear power plant.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 control room 2 plant monitoring and control panel 3 alarm collecting window 4 alarm window 5 control room 6 plant monitoring and control panel 7 alarm collecting window 8 alarm window 9 generated alarm data collecting device 10 data processing device 11 storage device (storage means)
12 CRT display device 13 Printing device 14 TV camera 15 Interactive input device (interactive input means)
16 Input determination unit 17 Input image 18 A / D converter 19 Binarization processing data 20 Alarm window coordinate data 21 Alarm window on / off state 22 Alarm window panel selection screen 23 Alarm collective window 24 Alarm window panel number 25 Alarm window selection screen 26 Alarm window 27 Alarm window on / off state 28 Alarm name 29 Occurrence alarm storage unit (Occurrence alarm storage means)
30 plant monitoring computer 31 transmission line 32 input judgment unit (input judgment means)
33 Plant state comparison unit (plant state comparison means)
34 Transmission line 35 External receiving device

Claims (3)

A TV camera for photographing an alarm collective window on a plant monitoring control panel in which an alarm window is turned on in response to a failure cause signal from a plant, and an alarm window simulation display screen having the same layout as the alarm collective window on the plant monitoring control panel. Automatically inputting alarm data items based on a difference in brightness of an alarm window image obtained from the TV camera, and selecting corresponding coordinates of an alarm generated by the interactive input means. Alarm storage means for storing alarm data items according to the above, storage means for setting, as predicted alarm data, an alarm which can be predicted in advance according to at least one of the plant operating state and the equipment inspection state, A plant state comparing means for extracting a difference between the alarm data and the generated alarm data stored by the generated alarm storing means, Determine the alarm generated, generating alarm data collection device being characterized in that a configuration for detecting an abnormal item. A TV camera for photographing an alarm collective window on a plant monitoring and control panel in which an alarm window is turned on in response to a failure cause signal from a plant, and an alarm data item based on a luminance difference between alarm window images obtained from the TV camera. An alarm storage means for automatically saving, inputting plant process data taken from a plant monitoring computer, and input determining means for predicting an alarm item to be generated based on the plant process data; and A storage for setting at least one of an alarm item generated based on the alarm, a warning that can be predicted in advance based on an operation state of the plant, and an alarm that can be predicted in advance based on an inspection state of equipment as at least one alarm item or warning as predicted alarm data. Means, the generated alarm data and the generated alarm stored by the generated alarm storage means. And a plant state comparison means for extracting a difference between the over data, to determine the alarm to be generated in the normal state, generating an alarm data collection device being characterized in that a configuration for detecting an abnormal item. 2. The generated alarm data collection according to claim 1, wherein the interactive input means recalls the past alarm data of the same plant status saved as a database by designating the collected plant status, and supports the judgment. apparatus.

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