JPH0365618A - Displaying device for result of analysis of frequency - Google Patents

Abstract

PURPOSE:To expand a frequency range being necessary for a fault diagnosis and thereby to make it possible to display the result of analysis so that a whole situation can be known, by conducting a frequency analysis processing for collected state data. CONSTITUTION:State data on a rotary apparatus being an object of a fault diagnosis are collected by a data collecting means 8. Next, the state data are subjected to a frequency analysis processing by a frequency analysis means 9 and reduced thereby to frequency components. In a screen dividing means 10, a frequency range being necessary for the fault diagnosis is calculated on the basis of a rated speed of rotation of the rotary apparatus, and the division ratio of a display screen is decided from the range and a measuring range at the time of collection of the data. In a result display means 11, subsequently, the frequency components resulted from the analysis by the frequency analysis means 9 are subjected to coordinate conversion or the like in accordance with the division ratio decided by the screen dividing means 10 and displayed on a display screen 12. By this method, the frequency range necessary for the fault diagnosis is expanded and thereby the result of the frequency analysis can be displayed so that a whole situation can be known.

Description

[Detailed Description of the Invention] [Object of the Invention] (Industrial Application Field) The present invention relates to a frequency analysis result display device used for diagnosing the failure of rotating equipment, and particularly relates to a frequency analysis result display device that is used for diagnosing failures of rotating equipment. The present invention relates to a frequency analysis result display device that displays split screens.

(Prior art) In recent years, in various plants, in order to perform failure diagnosis on rotating equipment, the state data of the rotating equipment is collected, and the collected state data is subjected to frequency analysis processing (fast Fourier transformation). :FFT) and displaying the results has been widely used.

FIG. 5 is a block diagram showing an example of the configuration of this type of conventional frequency analysis result display device. In FIG. 5, the frequency analysis result display device 1 is comprised of a data collection means 2, a frequency analysis means 3, a result display means 4, and a display screen 5. That is, the data collecting means 2 collects state data of a rotating device 6 such as a pump that is a target of failure diagnosis, and for example, vibration data is collected. Further, the frequency analysis means 3 performs a frequency analysis process on the state data collected by the data collection means 2 and decomposes it into frequency components. Furthermore, the result display means 4
The frequency components that are the analysis results of the frequency analysis means 3 are subjected to coordinate transformation, etc., and displayed on a display screen 5 such as a CRT display device.

Now, in such a frequency analysis result display device, the displayed screen is generally graduated at equal intervals with respect to the coordinates @X and Y, and the entire frequency range is displayed on one screen. However, in most cases, failure diagnosis can be performed using only frequency analysis results at a specific frequency due to the characteristics of the target rotating equipment, and the entire frequency band is not required. For example, rotating equipment 6 such as a pump
In the fault diagnosis of the rotating equipment 6, the rated rotation speed is set to n.
(r, p, m) and N-n/60 (Hz),
Fault diagnosis can be performed by understanding the characteristics of the frequency analysis results of 1/3N, 1/2N, N, 2N, and IKHz or higher.

The rated rotation speed of rotating equipment 6 such as a pump is set to n -1200 (
r, p, m), then N-n/60 (Hz), then 1/3 N-6, 7 (Hz), 1/2 N-1
0 (Hz) N-20 (Hz), 2N=40 (Hz
), and the display screen 5 of the frequency analysis result becomes, for example, as shown in FIG. That is, 1/3N, 1/2NSN, 2
Most of the N frequency components are shifted to the left side in the figure, making it extremely difficult to judge the frequency analysis results. Therefore, in this case, the conventional method is to specify the required frequency region, enlarge that region and display it as a new screen, or open a window and display it there.

(Problem to be Solved by the Invention) As described above, in the conventional frequency analysis result display device, when attempting to diagnose the failure of rotating equipment, the details of the frequency components necessary for failure diagnosis are displayed on the initial screen. There is a problem in that the screen is not displayed and new screen operations such as enlarging the display or opening a window are required.

The purpose of the present invention is to expand the frequency range necessary for fault diagnosis and display frequency analysis results in a way that allows understanding of the overall situation without performing new screen operations such as enlarging the display or opening a window. An object of the present invention is to provide a highly reliable frequency analysis result display device that is capable of performing.

C. Configuration of Invention (Means for Solving Problem 2) In order to achieve the above object, the present invention provides a data collection means for collecting status data of a rotating device to be subjected to failure diagnosis, and a data collection means. A frequency analysis means that performs frequency analysis processing on the status data collected and decomposes it into frequency components, and a frequency analysis means that calculates the frequency range necessary for fault diagnosis based on the rated rotation speed of the rotating equipment, and calculates the frequency range and status of the rotating equipment. A screen dividing means that determines the division ratio of the display screen based on the measurement range at the time of data collection, and a frequency component that is the analysis result of the frequency analysis means is displayed on the display screen according to the division ratio determined by the screen division means. and a result display means.

(Operation) In the frequency analysis result display device of the present invention, the data collection means collects the state data of the rotating equipment that is the target of failure diagnosis, and the frequency analysis means performs frequency analysis processing on this state data to create frequency components. It is decomposed into On the other hand, the screen dividing means calculates a frequency range necessary for failure diagnosis based on the rated rotational speed of the rotating equipment, and determines the division ratio of the display screen from this and the measurement range at the time of data collection. Then, the frequency components that are the analysis results by the frequency analysis means are displayed on the display screen according to the determined division ratio. As a result, the screen displayed on the display screen is already displaying an expanded frequency range required for fault diagnosis, and it is also possible to understand the status of the overall frequency analysis results, as mentioned above. There is no need to perform any new screen operations such as enlarging the display or opening a window.

(Example) First, the concept of the present invention will be described.

In rotating equipment such as pumps, failure conditions can be ascertained by capturing the characteristics of frequency components that are multiples of the rated rotational speed and frequency bands of IKHz or higher.Frequency components that are multiples of the rated rotation speed are particularly important. becomes. That is, for example, if the rated rotation speed is n-1200 (r, p, m), 1/3N order 6.7 (Hz) 1/2N order 10 (Hz) N order 20 (Hz), 2N order 4
0 (Hz), and features appear above IKHz (
N-n/60-1200/60-20(Hz
)). When such frequency analysis results are displayed on one screen, the frequency range required for fault diagnosis is 50 (H
z) and above IKHz, and when displayed on a uniform scale, it will be extremely biased to the left and right.

Therefore, in the present invention, the range of frequency components that are multiples of the rated rotation speed, which is important for fault diagnosis, is expanded, and the entire screen is displayed at an appropriate ratio so that the entire screen can be grasped.

Alternatively, the display may be divided and displayed at an arbitrarily requested ratio.

Hereinafter, an embodiment of the present invention based on the above concept will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing an example of the configuration of a frequency analysis result display device according to the present invention. As shown in FIG. 1, the frequency analysis result display device 7 of this embodiment includes a data collection means 8.
, a frequency analysis means 9, a screen division means 10, a result display means 1], and a display screen 12.

Here, the data collection means 8 is for collecting status data of the rotating equipment 6 such as a pump that is a target of failure diagnosis. Further, the frequency analysis means 9 performs a frequency analysis process on the state data collected by the data collection means 8 and decomposes it into frequency components. Furthermore, the screen dividing means 10 calculates a frequency range necessary for failure diagnosis based on the rated rotation speed of the rotating equipment 6, and divides the display screen 12 into
This is to determine the division ratio. Furthermore, the result display means 11 performs coordinate transformation and the like in order to display the frequency components, which are the analysis results of the frequency analysis means 9, on the display screen 12 according to the division ratio determined by the screen division means 10. .

The display screen 12 is for screen display.

Next, the operation of the frequency analysis result display device having such a configuration will be explained according to the flowchart shown in FIG. 2.

In FIG. 1, the data collection means 8 collects status data from the rotating equipment 6 for a time period necessary for failure diagnosis (step 84). In this case, the state data of the rotating device 6 is generally collected by collecting vibration data of the rotating device 6 via a sensor, and an acceleration or speed sensor is used as the sensor. FIG. 3 is a diagram showing an example of the state data (original waveform) collected by the data collection means 8. Since this state data cannot be evaluated for fault diagnosis, it is not introduced into the frequency analysis means 9. Ru. and,
In the frequency analysis means 9, the collected state data is subjected to frequency analysis processing, and the collected state data is decomposed into frequency components (step S2).

Next, the screen dividing means 10 divides the rated rotational speed n (r, p, m) of the rotating equipment 6 into an order multiple frequency range of 1/3N and 1/2N required for failure diagnosis.

N, 2N (however, N-n/60) is calculated (step S3). Also, based on this frequency range and the measurement range at the time of collecting the state data, the display screen 12
The division ratio of is determined (step 84). That is,
The measurement range when this status data was collected is R (Hz)
Let a'/b'-m be the division ratio of the display screen 12. Here, a' is a scale value on the screen from 0 to a (Hz), bo is a scale value on the screen from a-R (Hz), a>2N, and R-a-b. For example, n-12
00 (r, p, m) 2N-40 (Hz) R-2
(KHz), a is 50 (Hz). The value of a is 2N, and when it is divided and displayed at a ratio of m, the features of 2N or less can be captured.
Consider a value close to N. The screen division ratio can be set using a preset value or arbitrarily specified from the outside so that a screen with an appropriate division ratio can be displayed at the time of fault diagnosis.

Next, the result display means 11 performs coordinate transformation or the like to display the frequency component, which is the analysis result of the frequency analysis means 9, on the display screen 12 according to the division ratio determined by the screen division means 10. The results will be displayed on the display screen 12. Figure 4 shows the rated rotation speed n-1200
(r/p/m) N-10 (Hz) R-2 (KH
z) a-50 (Hz) b-50~2000
(Hz), a'/b' -5 is a diagram showing an example of split display.

As described above, in the frequency analysis result display device of this embodiment, the data collection means 8 collects the state data of the rotating equipment 6 that is the target of failure diagnosis, and the frequency analysis means 9 subjects this state data to frequency analysis processing. is applied to decompose it into frequency components,
Furthermore, the screen dividing means 10 selects the frequency range 1/3N, 1/2N, which is necessary for fault diagnosis based on the rated rotation speed n of the rotating equipment 6.
N.

2N (however, N-n/60), the division ratio m of the display screen 12 is determined from this and the measurement range R at the time of data collection, and the frequency component that is the analysis result by the frequency analysis means 9 is displayed on the screen. The image is displayed on the display screen 12 according to the division ratio m determined by the division means 10.

Therefore, the screen displayed on the display screen 12 already displays an expanded frequency range required for failure diagnosis, and it is also possible to understand the status of the overall frequency analysis results. , there is no need to perform new screen operations such as enlarging the display or opening a window as in the past. Furthermore, since the division ratio of the display screen 12 can be arbitrarily selected, it is extremely effective in diagnosing the failure of the rotating equipment 6.

In the above embodiment, a case has been described in which the division ratio m of the display screen 12 is 5, but it goes without saying that a division ratio other than this may be used.

[Effects of the Invention] As explained above, according to the present invention, it is possible to expand the frequency range necessary for fault diagnosis and grasp the overall situation without performing new screen operations such as enlarging the display or opening a window. Therefore, it is possible to provide an extremely reliable frequency analysis result display device that can display frequency analysis results in a manner that allows the frequency analysis results to be displayed in a manner that allows the frequency analysis results to be displayed in a manner that allows the frequency analysis results to be displayed in a highly reliable manner.

[Brief explanation of drawings]

Fig. 1 is a block diagram showing an embodiment of the frequency analysis result display device according to the present invention, Fig. 2 is a flow diagram for explaining the operation of the embodiment, and Fig. 3 is an example of status data in the embodiment. , FIG. 4 is a diagram showing an example of the display screen in the same embodiment, FIG. 5 is a block diagram showing an example of the configuration of a conventional frequency analysis result display device, and FIG. 6 is a diagram showing an example of the display screen in FIG. 5. It is a figure showing an example. 7... Frequency analysis result display device, 8... Data collection means, 9... Frequency analysis means, 10... Screen dividing means, 11... Result display means, 12... Display screen.

Claims (1)

[Scope of Claims] Data collection means for collecting state data of a rotating device to be subjected to failure diagnosis; and frequency analysis for performing frequency analysis processing on the state data collected by the data collection means and decomposing it into frequency components. and a screen for calculating a frequency range necessary for failure diagnosis based on the rated rotation speed of the rotating equipment, and determining a division ratio of the display screen based on the frequency range and the measurement range at the time of collecting the status data. Frequency analysis characterized by comprising: a dividing means; and a result display means for displaying the frequency components that are the analysis results of the frequency analyzing means on a display screen according to the division ratio determined by the screen dividing means. Results display device.