JP2007226728A - Operation monitoring and control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable an operator unskilled in plant operation to respond promptly and accurately, and to complement handling in an actual plant. <P>SOLUTION: An operation monitoring and control system comprises: control devices for controlling a plant; a monitoring device having an input/output device to monitor and operate the plant, an information updating means for updating information to the input/output device, and a warning example database; and a control LAN for connecting them. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an operation monitoring control system in which an inexperienced operator in a plant operation can quickly and accurately respond to a plant operation system in which operation is performed by a man machine.

An operation monitoring control system in a power plant or an industrial plant includes a monitoring device that displays a screen on a display such as a CRT to centrally monitor the state of the plant and an operation, and a plurality of control devices that control each plan and device. Are connected by a control LAN.

  FIG. 12 is a configuration diagram of a conventional operation monitoring control system including a monitoring device 1, a plurality of control devices 2, and a control LAN 3 (see, for example, Patent Document 1).

In the conventional operation monitoring control system, when an abnormality occurs in the process value input from the field instrument, the operation of the equipment, the execution result of the control logic performed by each control device, the control device 2 controls the abnormality information. Data is transmitted to the monitoring device 1 via the LAN 3.

The monitoring device 1 processes the transmitted abnormality signal, generates an alarm, prompts the operator to confirm the abnormality, and outputs abnormality information to the input / output device 4. Based on the output abnormality information, the operator recognizes the abnormality and performs a confirmation operation.

FIG. 13 is a configuration diagram in which a training apparatus 5 is added to a conventional type operation monitoring control system. The training device 5 added to the operation monitoring control system is for the operator to train the operation of the actual plant in a stand-alone manner.
JP-A-6-111163

  In the conventional operation monitoring control system, the abnormality information notified to the operator is information simply expressed with a minimum character string. For this reason, it may be difficult for an operator to grasp an abnormal state if the operator is immature in plant operation. Nevertheless, there has always been a demand for investigation of the cause of abnormality and for prompt and accurate treatment of the abnormality that has occurred.

  In the present invention, when the monitoring device 1 receives the abnormality information generated by the control device 2, the monitoring device 1 outputs the abnormality information data to the input / output device 4 to allow the operator to recognize the alarm information database 21. It is an object of the present invention to provide an operation monitoring control system that can promptly and accurately respond even to an unskilled operator of a plant by searching for possible causes and treatment methods.

  In order to achieve such an object, the operation monitoring control system of the present invention includes a control device for controlling a plant, an input / output device for monitoring and operating the plant, and information indicated in the input / output device. And a monitoring device having an alarm case database and a control LAN for connecting them.

  By referring to the alarm case database and searching for possible causes and treatment methods, it is possible to provide an operation monitoring and control system that allows an inexperienced operator to respond quickly and accurately.

  The purpose of providing an operation monitoring and control system that can respond promptly and accurately even to an operator who is inexperienced in plant operation when abnormal information occurs is realized by introducing an alarm case database and a training device. Hereinafter, embodiments will be described with reference to the drawings.

  FIG. 1 is a configuration diagram of the operation monitoring control system. The operation monitoring control system of FIG. 1 includes a status signal input / output means 31, a monitoring apparatus information update means 11 including an alarm case information processing means 32, and an alarm case database 21 for storing alarm case information. 1, one or more control devices 2 that transmit a control signal and an abnormal signal to the monitoring device 1, an input / output device 4 that is connected to the monitoring device 1 and displays or operates the plant. It is composed of a connected control LAN 3.

  The fundamental difference between the operation monitoring control system of the present embodiment shown in FIG. 1 and the conventional operation monitoring control system shown in FIG. 12 is that an alarm case database 21 is provided in the monitoring device 1.

FIG. 2 is an explanatory diagram showing the flow of information collection and alarm case search when an alarm is generated in the monitoring device 1 in the present operation monitoring control system.
First, the monitoring device 1 receives an abnormal signal generated by the control device 2 (not shown) by the state signal input means 31 via the control LAN 3.

  Next, the alarm case information processing means 32 in the monitoring device 1 selects a signal related to the alarm from the history information of the received state signal.

  Further, the alarm case information processing means 32 searches the alarm case database 21 for the corresponding case based on the signal related to the selected alarm.

FIG. 3 is an explanatory diagram showing a flow of alarm case data display in the monitoring device 1 following the flow of information collection and alarm case search in the monitoring device 1 in the operation monitoring control system shown in FIG. is there.
First, it is assumed that a corresponding alarm case is found by searching the alarm case database 21, and further, an alarm processing method is defined.

  In this case, when the operator touches “alarm display” on the screen of the monitoring device input / output device 4, the alarm case information processing means 32 reads out and reads out the alarm case and the alarm action method from the alarm case database 21. Is output to the monitoring device input / output device 4 by the monitoring device information updating means 11.

An example of the output alarm processing display screen is shown in FIG.
In the screen example of the alarm processing display of FIG. 4, the alarm name is “V10 liquid level low”, the alarm rank is “medium alarm”, the set value and the operating device are specified, and the initial response is “ "Follow-up" and the presumed cause is displayed as "Leakage instrument failure from V10".

FIG. 5 shows the flow of information collection and alarm case search when an alarm is generated in the monitoring device 1 in the present operation monitoring control system shown in FIG. 2, and the flow of alarm case data display in the monitoring device 1 shown in FIG. It is explanatory drawing which shows the flow of storage of alarm example data succeedingly.
First, when the status signal input unit 31 of the monitoring device 1 receives the generated abnormal signal, the alarm case information processing unit 32 in the monitoring device information update unit 11 searches the alarm case database 21 for the corresponding alarm case.

  If no corresponding alarm case is found as a result of the search, the alarm case information processing means 32 associates the alarm with the collected status signal and stores it in the alarm case database 21.

  According to the present embodiment, it is possible to provide an operation monitoring control system capable of promptly and accurately responding even to an unskilled operator in plant operation by searching for an assumed cause and treatment method with reference to an alarm case database. it can. Moreover, even if the corresponding alarm case is not found as a result of the search, the alarm case data can be reinforced by associating the alarm with the collected status signal and storing it in the alarm case database.

FIG. 6 is a configuration diagram in which the operation monitoring control system and the training apparatus are always connected.
The monitoring device 1 having the monitoring device information updating means 11 and the monitoring device input / output device 4 is connected to the control device 2 via the control LAN 3, and the monitoring device 1 and the training device 5 are different from the control LAN 3. Directly connected by a transmission cable 6.

FIG. 7 is an explanatory diagram showing a transmission means between the monitoring device 1 and the training device 5.
Signals transmitted to each other by the transmission cable 6 connected to the monitoring device 1 and the training device 5 are transmitted and received by the transmission data input / output means 12 provided in the monitoring device 1 and the training device 5.

  FIG. 8 is a diagram showing a configuration and a flow of verification processing when the alarm case verification processing means 41 is provided in the training device 5.

  As described above, when the alarm case database 21 in the monitoring device 1 is searched when an abnormality occurs, as a result of the search, there is no corresponding case, new alarm case data is added to the alarm case database 21.

  Normally, the added alarm case data has a structure including an alarm treatment method, but the alarm treatment method may be undecided data. In that case, a new alarm treatment method is set and verified.

A flow for newly setting and verifying an alarm treatment method will be described with reference to FIG.
First, alarm case data whose treatment method has not been determined is transmitted to the training device 5. In order to transmit alarm case data whose treatment method has not been determined to the training device 5, when the operator selects data to be transmitted by the monitoring device input / output device 4 of the monitoring device 1 and performs a transmission operation, transmission data The input / output unit 12 transmits the selected alarm method data for which the treatment method has not been determined to the training device 5.

  Next, the transmitted data is received by the transmission data input / output means 12 of the training device 5 and stored in the training alarm case database 22.

  Next, when an alarm treatment method is set and verified by the training device 5, the operator performs an operation of reading an unverified case from the training alarm case database 22.

  When this reading operation is performed, the training device alarm case verification means 41 reads the selected unverified alarm case data from the training alarm case database 22 to the work data area, and based on the data, the abnormality of the actual plant is read out. Reproduce the state.

  In this way, an accurate alarm treatment method can be set and verified without affecting the actual plant by the training device 5 in which the plant abnormality is reproduced.

  Since the abnormal state of the plant is reproduced by the information read in the work data area, even if the state changes due to the simulated operation of the abnormal state, it is easy to read out from the training alarm case database 22 again. It is possible to reproduce the abnormal state.

  FIG. 9 is an explanatory diagram showing a flow of processing for storing the result after verifying the case setting and its validity.

  That is, when the treatment method set and verified by the training alarm case verification processing unit 41 is confirmed, the confirmed alarm treatment method is added as data of the verified alarm case in the training alarm case database 22.

FIG. 10 is an explanatory diagram showing a data transmission path of the alarm case verification result.
First, when the operator selects data to be transmitted from the training alarm case database 22 in which the alarm treatment method verified by the training device 5 is stored, and performs the transmission operation, the selected data is stored in the training device 5. Are transmitted from the transmission data input / output means 12 to the transmission data input / output means 12 of the monitoring apparatus 1.

  Next, the transmitted data is received by the transmission data input / output means 12 of the monitoring device 1, and alarm case data identical to the key information of the received data is retrieved from the alarm case database 21 and matched. The received data is overwritten in the alarm case database 21.

  According to the present embodiment, even when the alarm case data having a structure including the alarm treatment method is data for which the alarm treatment method has not been decided, an effective alarm treatment method for the actual plant is obtained by the training device. It can be newly set.

FIG. 11 is an explanatory diagram showing the flow of alarm examples in the training device 5 and the flow of driving training processing.
The alarm case expansion means 13 provided in the training device 5 can expand the training alarm case database 22 in the training device 5 based on the function of the malfunction 42, that is, the abnormality occurrence function. Therefore, the malfunction 42 can generate a pseudo abnormality during plant operation training in the training device 5.

  According to the present embodiment, the alarm case expanding means 13 reproduces the alarm state data in the actual plant transmitted from the monitoring device 1 to the malfunction 42, thereby reproducing the abnormal state substantially the same as that of the actual plant. can do.

1 is a configuration diagram of an operation monitoring control system according to Embodiment 1. FIG. It is explanatory drawing of the flow of the information collection at the time of the alarm generation which concerns on Example 1, and a case search. It is explanatory drawing of the flow of the alarm example data display which concerns on Example 1. FIG. 4 is an example of a screen for displaying alarm measures according to the first embodiment. It is explanatory drawing of the flow of storage of the alarm example data which concern on Example 1. FIG. FIG. 6 is a connection diagram of a monitoring device and a training device according to a second embodiment. It is explanatory drawing of the transmission direction of the monitoring apparatus and training apparatus which concern on Example 2. FIG. It is explanatory drawing of the alarm case data transmission which concerns on Example 2, and the alarm case verification process. It is explanatory drawing of the storage process of the case verification result which concerns on Example 2. FIG. It is explanatory drawing of the data transmission of the alarm example verification result which concerns on Example 2. FIG. It is a block diagram of the alarm example development and training process which concern on Example 3. FIG. It is a block diagram of the conventional driving | operation monitoring control system. It is a block diagram of the conventional driving | operation monitoring control system and training apparatus.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Monitoring apparatus, 2 ... Control apparatus, 3 ... Control LAN, 4 ... Input / output apparatus for monitoring apparatuses, 5 ... Training apparatus, 6 ... Transmission cable, 11 ... Monitoring apparatus information update means, 12 ... Transmission data input / output means, DESCRIPTION OF SYMBOLS 13 ... Alarm case expansion means, 21 ... Alarm case database, 22 ... Training alarm case database, 31 ... Status signal input / output means, 32 ... Alarm case information processing means, 41 ... Training apparatus alarm case verification process, 42 ... Malfunction 43 ... Training device operation training processing means.

Claims (8)

A control device for controlling the plant;
A monitoring device having an input / output device for monitoring and operating the plant, information updating means for updating information shown in the input / output device, and an alarm case database;
An operation monitoring control system comprising a control LAN for connecting them. The information updating means recognizes the occurrence of an alarm when an abnormal state occurs in plant operation, collects the operation state signal of the plant, and searches for the same alarm case from the alarm case database based on the result. Having means,
The alarm case search means outputs the alarm case to the input / output device when a corresponding alarm case is found as a result of searching in the alarm case database, and when the corresponding case is not found, The operation monitoring control system according to claim 1, wherein the collected operation state signal is stored in the alarm case database as an alarm case. A training device for performing training for operating a plant by a man-machine interface via the control device and the monitoring device,
The operation monitoring control system according to claim 1, further comprising: The monitoring device has monitoring device side transmission means for transmitting alarm case data held by the monitoring device to the training device via a control LAN, and the training device receives the alarm case data transmitted by the monitoring device. The operation monitoring control system according to claim 3, further comprising a training device-side receiving unit. When receiving the alarm case data, the training device performs a simulation operation based on the alarm case data, sets a treatment method for the alarm case data, and verifies the validity of the treatment method. The operation monitoring control system according to claim 4, further comprising treatment method verification means. The training device adds the treatment method verified by the treatment method verification means to the alarm case data received from the monitoring device, and updates the training alarm case database in the training device. Update means
The operation monitoring control system according to claim 5, further comprising: The training device includes a training device-side transmission unit that transmits alarm case data to which the alarm case data treatment method is added to the monitoring device via a transmission cable, and the monitoring device transmits the monitoring device. The operation monitoring control system according to claim 6, further comprising: a monitoring device-side receiving device that receives the data and a database updating unit that updates the alarm case database. The training device further includes a malfunction expansion means for expanding alarm case information data into a malfunction from the alarm case database in the training device,
The operation monitoring control system according to claim 6, wherein the malfunction development means conducts plant operation training in which the developed malfunction is incorporated to obtain a treatment method for the alarm case.

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