JPS58225412A - Recording and analyzing device of transient phenomenon - Google Patents

Abstract

PURPOSE:To record and display at a high response speed and at the same time to evaluate automatically a transient change of process data when an event arises, by providing a means for displaying and recording both process and reference data. CONSTITUTION:Both process and reference data are displayed and recorded, and at the same time, the fact that the difference between both data exceeds the allowable value is displayed and recorded. For instance, the process data given from a control board 21 are collected by a digital input device 226 or an analog input device 227 of a computer 22 and then stored by a recorder 221. Then the process data is recorded by a magnetic drum 223, a floppy disk 224, etc. At the same time, an arithmetic processor 222 is actuated by a console 23 to start or stop the collection of process data or to select the display data or the recording data. Then the result of operation of the console 23 is displayed or recorded by a CRT display 24 or a recorder 25.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a transient phenomenon recording/analysis device that displays or records transient changes in a large number of non-robust data when an event occurs in a power generation plant or a chemical plant.

[Technical background of the invention and its problems]

Conventionally, self-balancing recorders and in-writing oscillographs have been mainly used as devices for recording transient changes in process data when an event occurs in a power generation plant or a chemical plant. However, these devices not only have a slow response speed but also only record a small number of points, about 20 points, and also rely on manual effort to determine the correct number of recorded data. On the other hand, with the recent increase in plant system scale and multiplication, transient changes in a large number of process data are recorded with a fast response speed and automatically evaluated for the purpose of troubleshooting when a plant event occurs. There is a growing demand for a device that can do this.

[Purpose of the invention]

The present invention was made in view of the above circumstances.
The purpose is to provide a transient phenomenon recording/analysis device that can record and display transient changes in a large number of process data at a fast response speed when an event occurs in a plant, and at the same time automatically evaluate them.

[Summary of the invention]

In order to achieve the above object, the present invention includes a process data collection circuit for collecting process data of a power generation ground or a chemical plant, a process data storage circuit for storing the collected data, and a process data storage circuit for storing reference data. a reference data storage circuit, an arithmetic circuit for calculating the difference between the merocess data stored in the process data storage circuit and the reference data stored in the reference data storage circuit, and a calculation circuit for setting a tolerance. a tolerance setting device, a comparison judgment circuit for comparing the output from the above calculation circuit and the output from the above tolerance setting device and determining which output is larger, and from this comparison judgment circuit. a storage circuit for storing the output of the process data storage circuit, a display device for displaying the output from the process data storage circuit, the output from the reference data storage circuit, and the output from the storage circuit, and a record for recording. Displaying process data and reference data 1. At the same time as recording, if the difference between the process data and the reference data exceeds a tolerance value, this fact is also displayed and recorded.

[Embodiments of the invention]

An embodiment of the present invention shown in the drawings will be described below.

Figure 1 is a schematic diagram showing the functional configuration of the transient phenomenon recording/analysis device according to the present invention.As shown in Figure 1, the transient phenomenon recording/analysis device is used in power generation grounds and chemical plants. A process data llK1 circuit 2 for collecting process data, a process data storage circuit 3 for storing process data from the process data collection circuit 2, and a reference data storage circuit 6 for recording reference data. 7' stored in the process data storage circuit 3. a calculation circuit 7 for calculating the difference between the process data and the reference data stored in the reference data storage circuit 5; and a tolerance setting device 6 for setting the tolerance;
A comparison/judgment circuit 8 for comparing the output from the arithmetic circuit 7 and the output from the tolerance setting device 6 and determining which output is larger, and storing the output from the comparison/judgment circuit 8. , a display device 10 for displaying the output from the process data storage circuit 3, the output from the reference data storage circuit 6, and the output from the storage circuit 9; Recording device 11 for recording
FIG. 2 shows a specific example of the configuration of the transient phenomenon recording/analysis device according to the present invention. As shown in FIG. 2, the transient phenomenon recording/analysis device includes a computer 22 for processing and analyzing process data generated from a control panel 2, and an operation console 2 for providing various operation signals to the computer 22.
3, and a CRT (cathode ray) for displaying the process data from the computer 22 and its analysis results.
Tub@) Display device 24 and recording device 2 for recording process data from the computer 22 and its analysis results.
It consists of 5.

On the other hand, the computer 22 includes a storage device 221 for temporarily storing process data and its analysis results, an arithmetic processing device 222 for processing the process data and various operation signals from the operation console 23, and A magnetic drum 223 for storing basic software necessary for operating the arithmetic processing unit 222 and process data in the storage device 22, and a Zoroppy disk for long-term storage of process data in the storage device 221. 224 or magnetic tape 225, and a digital input device 226 for collecting digital signals of process data generated from the control panel 2J;
and an analog input device 227 for collecting analog signals of process data generated from the process data.

The correspondence between FIG. 1 and FIG. 2 is as follows.

(,) Process data 1 is generated from control panel 2.

(b) The y'a process data acquisition circuit 2 corresponds to a digital input device 226 or an analog input device 227.

(c) The process data storage circuit 3 includes the storage device 2;
xsTa air drum 223. This corresponds to a floppy disc 224 or a magnetic tape 225.

(d) The reference data 4 is input from the console 23.

(-) The reference data storage circuit 5 includes a storage device 221°, a magnetic drum 223. It corresponds to the IF disk 224 or the magnetic disk 225.

(f) The tolerance setting device 6 is installed on the console 23.

Transmission) The arithmetic circuit 7 and the comparison/judgment circuit 8 are the arithmetic processing device 22.
Corresponds to 2.

(h) The recording circuit 9 is a storage device 221, a magnetic drum 223, a disk 224, or a magnetic tape 2.
Compatible with 25.

(1) The display device io corresponds to the C'RT display device 24.

(j) Recording device I corresponds to the recording device 25.

Next, the operation of the transient phenomenon recording/analysis device based on the configuration shown in FIG. 1 will be explained.

In FIG. 1, process data J (which actually includes a large number of process data) is collected by a process data collection circuit 2 and simultaneously stored in a process data storage circuit 3. On the other hand, the reference data 4 is stored in the reference data storage circuit 5. The process data stored by the process data storage circuit 3 and the reference data stored by the reference data storage circuit 5 are simultaneously displayed and recorded by the display device 1o and the recording device 11. The arithmetic circuit 7 calculates the following equation.

v −■ -X100 (chi) ■r However, v = reference data.

VP = process data This calculation result is compared with the output from the tolerance setting unit 6, that is, the tolerance, by the comparison/judgment circuit 8, and if the calculation result exceeds the tolerance, that fact is stored in the storage circuit 9. After being stored, it is displayed and recorded on the display device 10 and the recording device 11.

Next, the operation of the transient phenomenon recording/analysis device based on the configuration shown in FIG. 2 will be explained. In Figure 2, control panel 2
A large number of process data emitted from computer 22
Digital input device 226 (approximately 10 digital inputs)
After being collected at a speed on the order of υ microseconds by the analog input device 227 (installed for approximately 100 analog input points), the data is temporarily stored in the storage device 221. The process data temporarily stored in this storage device 221 is stored on a magnetic drum 223 for short-term storage.
For storage or long-term storage, use Flo, B disk 2.
24 or magnetic chip 7'' 225.

On the other hand, the operation console 23 includes, in addition to the tolerance setting device 6 shown in FIG. 1, a process data collection start/stop switch, which is not shown in FIG. Display data selection switch for selecting predetermined data - Operates predetermined data to be recorded from among a large amount of collected process data and displays it in the arithmetic processing unit 2
By operating 22, the collection of global data is started or stopped, display data is selected, or recording data is selected.

As a result of the operation on the console 23, predetermined data is displayed or recorded on the CR7 display device 24 or the recording device 25.

Note that the functions corresponding to the arithmetic circuit 7 and comparison/determination circuit 8 in FIG. 1 are largely processed by basic software stored in the arithmetic processing unit 222 and the magnetic drum 223 in FIG.

FIG. 3 shows an example of transient phenomenon recording of reference data and process data by the above-mentioned transient phenomenon recording/analysis device. In Figure 3, A is a trigger signal, B
is standard data, C is process data, and ↑ indicates a location where the upper limit value is exceeded, where an effect is obtained.

(a) A large amount of process data can be automatically collected and analyzed by a computer in a short period of time, and abnormal values can be clearly displayed or recorded.

(b) If necessary, the process data stored in the computer 2xVc can be reproduced.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the functional configuration of the transient phenomenon recording/analysis device according to the present invention, FIG. 2 is a diagram showing the same specific configuration, and FIG. 3 is an example of transient phenomenon recording of reference data and process data. FIG. DESCRIPTION OF SYMBOLS 1... Process data, 2... Process data collection circuit, 3... Process data storage circuit, 4... Standard data, 5... Standard data storage circuit, 6... Tolerance setter, 7... Arithmetic circuit, 8... Comparison/judgment circuit,
9... Memory circuit, 10... Display device, 11... Recording device, 21... Control panel, 22... Computer, 23...
...Operation console, 24...CRT display device, 25...Recording device, 22...Storage device, 222...Arithmetic processing unit, 223...Magnetic drum, 224...Flo, B Disk, 225... Magnetic tape, 226... Digital input device, 227... Analog input device. ζ

Claims (1)

[Claims] a data collection circuit for collecting process data of a power generation plant or a chemical plant; a process data storage circuit for storing the collected data; a reference data storage circuit for storing reference data; an arithmetic circuit for calculating a difference between process data stored in a data storage circuit and reference data stored in the reference data storage circuit; a tolerance setter for setting a tolerance; a comparison judgment circuit for comparing the output of the output from the tolerance setting device with the output from the tolerance setting device and determining which output is larger; a storage circuit for storing the output from the comparison judgment circuit; A display device for displaying an output from the process data storage circuit, an output from the reference data storage circuit, and an output from the storage circuit, and a recording device for recording the process data and the reference data. While displaying and recording,
A transient phenomenon recording/analysis device characterized in that, when the difference between norocess data and reference data exceeds a tolerance value, this fact is also displayed and recorded.