DE3614331A1 - Plant diagnostic system - Google Patents

Abstract

The invention concerns a plant diagnostic system, which is constructed so that, from all entered plant data, a priority processor captures the data which is required for monitoring or processing during a deviating transitional state. This data is given a priority, so that the diagnostic results can be output to a display in sequence according to their highest priority.

Description

description

The invention relates to a plant diagnostic system, in particular a system that monitors abnormal transition states that occur during operation of a nuclear power plant and thereby establishes a diagnosis, and the diagnostic information shows on a display.

Previously known plant diagnostic systems were designed, for example, as shown in the block diagram of FIG. In this system there is a data collection unit 1, a processor 2 for the collected data, a data memory 3, a logic memory 4 for storing the logic for processing the data, a processor 5 for implementation a diagnosis based on the data of the diagnosis logic, a result memory 6 for storing the diagnosis results and a processor 7 for outputting the data each of the memories 3, 4, 6 is provided. The reference numeral 8 denotes a processor, that processes information related to the cause of a non-conformance condition, which requires a correction and a predetermined forwarding. This process is based on the diagnosis of a decision tree (cause consequence tree, hereinafter referred to as CCT), showing the relationship between cause and effect from the work results of the output data of the processor 7 and the output data of memories 3 and 4. Numeral 9 denotes a display such as a cathode ray tube.

The function of this known system will be explained below. The raw data coming from the system are entered into the data collection unit 1, digitally processed there and forwarded to processor 2. The data will be checked in the processor 2 for their limit values and then stored in the memory 3. The processor 5 performs logical processing on the data in the data memory 3 for the purpose of diagnosis on the basis of the diagnosis logic in the logic memory 4 and stores the results in the result memory 6. On the other hand, the processor performs 7 a check for deviations in the system and an identification the cause and the consequences based on the data stored in the memories. Of the Processor 8 calculates the actual time of occurrence with respect to the predetermined one Phenomenon in the processor 7 and accordingly gives output information about the Cause of the deviation state, the necessary correction and the predetermined one Forwarding out due to out of the deviation state by means of the CCT logic diagnosed information, while the display 9 the coming from the processor 8 Outputs information.

Such a known diagnostic system can detect abnormal conditions during of normal plant operation by applying the CCT logic and the Diagnostic results monitored with the help of the display.

In addition to the deviation states during normal system operation this known system can, however, if further serious deviation conditions occur, as in the case of temporary disruptions or accidents that occur at the same time, do not output any information about these deviation states in any way monitor, which corresponds to the order of priority of the importance of such cases, so that the Operating personnel do not exactly and quickly do such deviating transition states can recognize.

The present invention is based on the object of an improved System diagnosis system sorzuschlag that these mentioned disadvantages of the known Systems avoids. In particular, a system diagnosis system is to be created, in which the diagnosis results of deviating transition states of the system automatically are output to a display according to the importance of these cases.

According to the invention, this object is achieved by a system diagnostic system, which is designed in such a way that the system data relating to a deviation state (abnormal state) during normal operation, a temporary one Disturbance (plant trip) and during an accident (accident) in the system by a Data collection unit are collected that the logic for a diagnosis of this system data are stored in a logic memory that a diagnosis of each system information is performed by a processor based on this logic that the diagnostic results stored in a results memory and that when the diagnostic results occur at the same time, these occur one after the other for recognition by the operator are output in an order in which the priority according to the importance is determined by a priority processor.

Advantageous refinements can be found in the subclaims.

The invention is described below using an exemplary embodiment Explained in more detail with reference to the accompanying drawings.

The figures show: FIG. 1 a block diagram of an installation diagnostic system known design; FIG. 2 shows a block diagram of a system diagnosis system according to FIG an embodiment of the invention; Fig. 3 is a flow chart illustrating the Diagnostic process in the processor of Figure 2; and Fig. 4 is a flow chart for Representation of the priority determination in the system according to FIG. 2.

In the system of Figure 2, there is a logic memory 4a for storage the diagnostic logic of a deviation state during normal system operation, provided during a temporary malfunction and during an accident of the system. In addition, a processor 5a is shown, with which not only the diagnostic processing a deviation condition occurs during normal operation, but also a Diagnosis during a temporary malfunction or an accident in the system is carried out. A result memory 6a for storing the diagnosis results regarding an abnormal condition, a temporary disruption and an accident is provided as well as a priority processor 10 for determining which diagnostic result should be given preference when three types of diagnostic results are displayed at the same time appear. This priority processor takes care of for that determined The diagnostic result is preferably output to the display 9. Those parts of the Figure 2, which are similar to those of Figure 1, have been given the same reference numerals and will not be described again.

Next, the function of this embodiment of the invention System diagnosis system. The system data are from the data collection unit 1 recorded, digitally processed there and then given to processor 2.

The processor 2 carries out processing by way of the limit value check these data and the results are stored in the data memory 3. These stored data contain data to determine the working condition, which relate to the operating mode of the system such as temporary malfunction, accident or refer to other principal variable. In the processor 5a is based on the in the logic memory 4a stored logic data and a diagnostic process (see Flowchart according to Figure 3) as well as the execution of a diagnostic function periodically performed, and display flags are set or reset accordingly the operating mode specified above if deviating transitions occur. The in that Logic data stored in the logic memory 4a are, for example, fault condition diagnostic data (CCT) during normal operation, diagnostic logic data in the event of temporary faults and in the event of accidents in the system. The result memory 6a stores the flag information, which is determined by the processor 5a, in such a way that the diagnostic state which is to be displayed by the three display flags. The processor 7 calculates the diagnostic data to be output based on the memories 3, 4a and 6a saved Data. The processor 8 organizes the diagnostic results of the processor 7 to prepare them for display.

In the priority processor 10, the output data is based on the information of the diagnosis result memory 6a and the processor 8 periodically brought up to date according to the setting or resetting the display flag in the diagnosis result memory 6a, see the flowchart in this regard according to FIG. 4. According to this flow chart, the diagnostic data of an accident is output to the display 9 with the highest priority for each diagnosis, while the Diagnostic data of a temporary fault in the system is the next priority in the sequence and the diagnostic data during a deviation state the lowest Get priority. When these three types of diagnostic data are different in their occurrence overlap, the information with the lower priority automatically becomes The display on the display 9 has been switched to a higher priority.

Although in the embodiment described above, any diagnostic logic in the event of a deviation during normal operation, in the case of a temporary one Fault and in the event of an accident in the system are stored in the same logic memory 4a is, the diagnosis is carried out in the same processor 5a and each diagnosis result is stored in the same result memory 6a, these can also be in individual Stores or processors are processed. Several displays 9 be provided so that the diagnostic information of the deviation state, the temporary malfunction and an accident of the system are displayed separately can.

According to the invention described above, a diagnosis of a deviating transitional state carried out during system operation and the Diagnostic results are shown separately on a display for the Accident status, the temporary disruption and the deviation status during the Normal operation. The results are updated automatically and accordingly their priority so that an operator can quickly identify the abnormal condition and reliably recognize and correct them as a function of these deviation states can perform safely and easily. This increases the burden on the operator significantly reduced, which leads to an improvement in plant safety and availability leads.

Claims (3)

Plant diagnostic system Patent claims 1. Plant diagnostic system with a data collection unit for collecting the raw data relating to a deviation state during normal operation, a temporary malfunction and during an accident in the plant; with a logic memory for storing logic data for diagnosis of abnormal conditions such as accidents or the like; with a processor for Carrying out a diagnosis based on the logic data; with a diagnostic results memory to save the diagnostic results and with a display for output of the diagnosis results, characterized by a priority processor for output of the diagnostic results in an order of priority that corresponds to relative importance corresponds to the diagnostic results if they occur at the same time. 2. Plant diagnostic system according to claim 1, characterized by a Plurality of logic memories, processors and diagnosis result memories to carry out the diagnosis of deviation states during normal operation, a temporary malfunction and to be able to carry out an accident individually. 3. Plant diagnostic system according to claim 1, characterized by a Multiple displays to show the diagnostic information regarding the normal state, to be able to output a temporary disruption and an accident individually.