JP2006226731A - Abnormality detection device of bearing - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an abnormality detection device of a bearing that can discriminate between an AE signal and a noise component caused by an abnormality of the bearing and can accurately detect the abnormality of the bearing. <P>SOLUTION: The abnormality detection device of the bearing detects the abnormality of the bearing, based on the AE signal output by an AE sensor 1 for detecting acoustic emission from the bearing (not shown). The abnormality detection device comprises a frequency discrimination means 3 for discriminating the frequency component in a predetermined range of the AE signal; a detection means 4 for detecting the discriminated signal; a comparing means 5 for comparing the level of the detected signal with a threshold; a duration calculating means 7 for calculating the duration of the detection signal since the signal level becomes larger in the comparison result until the signal level becomes smaller; and a rise time calculating means 9 for calculating the rise time since the signal level becomes larger in the comparison result until the signal level becomes maximum. The abnormality of the bearing is detected based on the calculated duration and rise time. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  INDUSTRIAL APPLICABILITY The present invention uses an acoustic emission (AE) to detect an abnormality such as a bearing out of lubrication, wear, or peeling, and is used for a pinch roll of a continuous casting facility in the steel industry in particular. The present invention relates to a bearing abnormality detection device suitable for a bearing used at a low speed of about 0.1 to 10 rpm, such as a bearing.

  Conventionally, a bearing abnormality detection apparatus using AE detects AE from a bearing by an AE sensor, and removes noise not related to the abnormality of the bearing from a AE signal output from the AE sensor by a bandpass filter. . Next, the noise-removed AE signal is envelope-detected by an envelope detection circuit, the envelope-detected AE signal is compared with a certain reference value by a comparator, and when the AE signal exceeds the reference value, Detected as abnormal. In addition, there is one that counts the number of times the AE signal exceeds a reference value and detects a bearing abnormality when the counted value exceeds a predetermined number.

In the conventional bearing abnormality detection apparatus described above, noise is removed from the AE signal sufficiently, although noise is removed from the AE signal by the band pass filter from the AE signal before envelope detection. I can't. Therefore, if a certain reference value is set and compared as it is, the AE signal caused by the noise component is also detected as indicating the abnormality of the bearing, and there is a problem that the abnormality detection of the bearing becomes inaccurate.
For example, in a rolling facility, a large AE signal is generated at the time of metal-in or the like, but it cannot be distinguished from an AE signal caused by a bearing abnormality by a bandpass filter, and a bearing abnormality may be erroneously determined. is there.

On the other hand, in Patent Document 1, the generation period of the AE signal exceeding the threshold is calculated, the number of occurrences for each calculated generation period is totaled, and when the total number of generations exceeds a predetermined number, the bearing abnormality is detected. A bearing abnormality detection device that discriminates the above is described.
JP 63-304128 A

The bearing abnormality detection device described in Patent Document 1 is effective when detecting an abnormality in peeling and pitching of a bearing used in high-speed rotation such as a rolling facility, but like a pinch roll of a continuous casting facility. Therefore, it cannot be said that the apparatus is effective for detecting abnormalities of wear caused by running out of lubrication of a bearing used at a low speed of about 0.1 to 10 rpm.
An object of the present invention is to provide a bearing abnormality detection device that can detect the abnormality detection of wear caused by the lack of lubrication generated in a bearing used at such low speed rotation.

  The AE signal, which is generated by wear due to lack of lubrication of the bearing used at low speed rotation and detected and output by the AE sensor, has a long duration and a long rise time as shown in the waveform diagram of FIG. Therefore, the present invention has been made based on the consideration that by calculating and evaluating the duration and rise time of the AE signal, it is possible to discriminate between the AE signal caused by the bearing abnormality and the AE signal which is noise. .

A pinch roll of a continuous casting facility was modeled, and an experiment was performed by changing the lubrication state according to the configuration shown in FIG. The bearings 22 and 24 used are BRG (22211CDK) having an inner ring diameter of 55 mm and an outer ring diameter of 250 mm. While the roll 23 supported on both sides by the two bearings 22 and 24 and connected to the motor 20 by the coupling 21 is rotated at 0.8 rpm, a load of 1.8 ton is applied to the central portion of the roll by hydraulic pressure. The AE signal was detected by the AE sensor 1 attached to 24.
As a result of the experiment, the AE signal detected and output by the AE sensor is as shown in the waveform diagram of FIG. Here, (a) is when the bearing lubrication is normal, (b) is when part of the bearing grease is removed and the oil film on the contact surface is thinned, and (c) is when the bearing grease is removed. It shows the case of complete removal, and it can be seen that the AE signal changes due to the lack of lubrication.

  A bearing abnormality detection device according to a first aspect of the present invention includes an AE sensor that detects an acoustic emission (AE) received from a bearing and outputs an AE signal, and based on the AE signal output by the AE sensor, In a bearing abnormality detecting device for detecting an abnormality, a frequency discriminating means for discriminating frequency components within a predetermined range of the AE signal, a detecting means for detecting a signal discriminated by the frequency discriminating means, and a signal detected by the detecting means The comparison means for comparing the level and threshold value of the signal and the comparison result of the comparison means indicate the duration of the signal from when the level of the signal becomes larger until the level of the signal becomes smaller. A duration calculation means for calculating, and a rise time calculation means for calculating a rise time from when the level of the signal becomes larger until the level of the signal reaches a maximum value, as a result of the comparison. Provided, duration of the duration calculation means has calculated, and based on the rise time of the rise time calculation means has calculated, characterized in that is arranged to detect an abnormality of the bearing.

  In this bearing abnormality detection device, the AE sensor detects acoustic emission (AE) received from the bearing and outputs an AE signal, and detects an abnormality of the bearing based on the AE signal output by the AE sensor. The frequency discriminating means discriminates frequency components in a predetermined range of the AE signal, and the detecting means detects the signal discriminated by the frequency discriminating means. The comparison means compares the level and threshold value of the signal detected by the detection means, and the duration calculation means determines that the comparison result of the comparison means is greater than the signal level and then the signal level is smaller. Calculate the duration of the signal until. The rise time calculation means calculates the rise time from the comparison result of the comparison means until the signal level reaches the maximum value after the signal level becomes larger. A bearing abnormality is detected based on the duration calculated by the duration calculation means and the rise time calculated by the rise time calculation means.

  According to a second aspect of the present invention, there is provided a bearing abnormality detection device, comprising: a first determination unit that determines whether the duration calculated by the duration calculation unit is longer than a first time; and the rise time calculated by the rise time calculation unit. And a second determination means for determining whether or not the second time is shorter than the second time, and the bearing is based on the number of times that the first determination means and the second determination means are both determined to be longer. The present invention is characterized in that it is configured to detect any abnormality.

  In this bearing abnormality detection device, the first determination means determines whether the duration calculated by the duration calculation means is longer than the first time, and the second determination means determines the rise calculated by the rise time calculation means. It is determined whether or not the time is longer than the second time shorter than the first time, and the abnormality of the bearing is detected based on the number of times that the first determination means and the second determination means are both determined to be long.

  According to the bearing abnormality detection device of the present invention, it is possible to realize a bearing abnormality detection device that can discriminate between AE signals and noise components caused by bearing abnormality and accurately detect the bearing abnormality. In particular, it is effective for detecting an abnormality of a bearing used at a low speed of about 0.1 to 10 rpm, such as a bearing used for a pinch roll of a continuous casting facility.

Hereinafter, the present invention will be described with reference to the drawings illustrating embodiments thereof.
FIG. 1 is a block diagram showing a configuration of an embodiment of a bearing abnormality detection device according to the present invention. This bearing abnormality detection device includes an AE sensor 1 that detects AE (acoustic emission) generated from a bearing (not shown), a preamplifier 2 that amplifies an AE signal output from the AE sensor 1, and an amplified AE signal. , And a band pass filter 3 (frequency discriminating means) for frequency discriminating frequency components of 80 kHz to 500 kHz.

  This bearing abnormality detection device also includes a detection circuit 4 (detection means) that detects an AE signal having a frequency component of 80 kHz to 500 kHz, which is frequency-discriminated by the bandpass filter 3, and an AE that the envelope detection is performed by the detection circuit 4. A level comparison circuit 5 (comparison means) that compares the level of the signal with a threshold value; a duration calculation circuit 7 (duration calculation means) that calculates the duration of the AE signal based on the comparison result of the level comparison circuit 5; A duration comparison circuit 8 (first determination means) that compares the duration of the AE signal calculated by the duration calculation circuit 7 with a predetermined time (first time) is provided.

  This bearing abnormality detection device also includes an A / D converter 6 that converts the AE signal detected by the envelope detection circuit 4 into a digital signal, a comparison result of the level comparison circuit 5, and a digital signal from the A / D converter 6. The rise time calculation circuit 9 (rise time calculation means) that calculates the rise time of the AE signal, and the rise time that compares the rise time of the AE signal calculated by the rise time calculation circuit 9 with a predetermined time (second time) A time comparison circuit 10 (second determination means).

  The bearing abnormality detection device also includes an AND circuit 11 that calculates a logical product of the comparison results of the duration comparison circuit 8 and the rise time comparison circuit 10, a counter 12 that counts the calculation result of the AND circuit 11, and a counter A count value comparison circuit 13 that compares 12 count values with a predetermined value, and a display circuit 14 that displays a bearing abnormality by lighting or the like when the comparison result of the count value comparison circuit 13 indicates a bearing abnormality. Yes.

Below, operation | movement of the abnormality detection apparatus of the bearing of such a structure is demonstrated.
The AE signal output by the AE sensor 1 detecting and outputting the AE generated from the bearing is amplified by the preamplifier 2 and given to the band pass filter 3. The band pass filter 3 discriminates the frequency components of 80 kHz to 500 kHz in the given AE signal and supplies the frequency components to the detection circuit 4.
It should be noted that the frequency of the AE generated when the bearing made of bearing steel or other steel is abnormal, such as running out of lubrication, wear, or peeling, is within the range of 80 kHz to 500 kHz (around 200 kHz in the case of bearing steel). Has been confirmed.

The detection circuit 4 envelope-detects the applied AE signal having a frequency component of 80 kHz to 500 kHz, and supplies the AE signal from which the high frequency component has been removed to the level comparison circuit 5 and the A / D converter 6.
The level comparison circuit 5 compares the level of the envelope-detected AE signal with a threshold value, and gives the comparison result to the duration calculation circuit 7 and the rise time calculation circuit 9.
The duration calculation circuit 7 uses the time from when the comparison result of the level comparison circuit 5 becomes larger in the level of the AE signal until the level of the AE signal becomes smaller as the duration of the AE signal. It is calculated and given to the duration comparison circuit 8.
The duration comparison circuit 8 compares the duration of the given AE signal with a predetermined time (first time, for example, 10 msec) determined from a result of an experiment, and gives the comparison result to the AND circuit 11.

The AE signal converted into a digital signal by the A / D converter 6 is given to the rise time calculation circuit 9. The rise time calculation circuit 9 calculates the time from when the comparison result of the level comparison circuit 5 becomes the maximum value of the AE signal converted to the digital signal after the level of the AE signal becomes larger. The rise time is calculated and given to the rise time comparison circuit 10. For example, the values before and after the adjacent digital signals from the A / D converter 6 are compared, and the value before the later value becomes the minimum value of the AE signal.
The rise time comparison circuit 10 compares the rise time of the given AE signal with a predetermined time (second time, for example, 1 msec) determined from a result of an experiment in advance, and gives the comparison result to the AND circuit 11.

The AND circuit 11 indicates that the comparison result of the duration comparison circuit 8 indicates that the duration is longer, and the comparison result of the rise time comparison circuit 10 indicates that the rise time is longer. The ON signal is supplied to the counter 12, and the counter 12 counts the ON signal and supplies the count value to the count value comparison circuit 13.
The count value comparison circuit 13 gives a signal indicating that the bearing is abnormal to the display circuit 14 when the given count value reaches a preset value (1 or more). Based on the given signal, the display circuit 14 displays that the bearing is abnormal by lighting the indicator lamp or the like.

It is a block diagram which shows the structure of embodiment of the abnormality detection apparatus of the bearing which concerns on this invention. It is a wave form diagram which shows the example of a waveform of the AE signal from a bearing. It is a schematic diagram which shows the structure at the time of experimenting by modeling the pinch roll of a continuous casting equipment and changing a lubrication state. It is a wave form diagram which shows the example of a waveform of AE signal at the time of changing the grease quantity of a bearing.

Explanation of symbols

1 AE sensor 2 Preamplifier 3 Band pass filter (frequency discrimination means)
4 detection circuit (detection means)
5 level comparison circuit (comparison means)
6 A / D converter 7 Duration calculation circuit (duration calculation means)
8 Duration comparison circuit (first determination means)
9 Rise time calculation circuit (rise time calculation means)
10 rise time comparison circuit (second determination means)
11 AND circuit 12 Counter 13 Count value comparison circuit 14 Display circuit 22, 24 Bearing 23 Roll

Claims (2)

In a bearing abnormality detection device that includes an AE sensor that detects acoustic emission (AE) received from a bearing and outputs an AE signal, and detects an abnormality of the bearing based on the AE signal output by the AE sensor.
A frequency discriminating means for discriminating frequency components within a predetermined range of the AE signal; a detecting means for detecting a signal discriminated by the frequency discriminating means; a comparing means for comparing the level and threshold value of the signal detected by the detecting means; The comparison result of the comparison means is a duration calculation means for calculating a duration of the signal from when the level of the signal becomes larger until the level of the signal becomes smaller; and the comparison result A rise time calculating means for calculating a rise time until the level of the signal reaches a maximum value after the level of the signal becomes larger, the duration calculated by the duration calculation means, And a bearing abnormality detection device configured to detect the bearing abnormality based on the rise time calculated by the rise time calculation means.   First determination means for determining whether or not the duration calculated by the duration calculation means is longer than the first time, and the rise time calculated by the rise time calculation means is less than the second time shorter than the first time. And a second determination means for determining whether the bearing is long or not, and is configured to detect an abnormality of the bearing based on the number of times that the first determination means and the second determination means are both determined to be long. Item 1. A bearing abnormality detection device according to Item 1.

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