CN1126949C - Method for eliminating eccentric vibration in rotation axle radial vibration test - Google Patents
Method for eliminating eccentric vibration in rotation axle radial vibration test Download PDFInfo
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- CN1126949C CN1126949C CN99120123A CN99120123A CN1126949C CN 1126949 C CN1126949 C CN 1126949C CN 99120123 A CN99120123 A CN 99120123A CN 99120123 A CN99120123 A CN 99120123A CN 1126949 C CN1126949 C CN 1126949C
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Abstract
The present invention discloses a method for eliminating eccentric vibration in radial vibration test of a rotation axle. Key-phase external trigger is used for controlling and collecting a starting point; a vortex sensor is respectively utilized to collect displacement signals under low rotating speed and high rotating speed according to a rotating angle of a rotating shaft according to identical isodisperse, and equal-amount collection point number n is more than or equal to 64; collection points under the high rotating speed and the low rotating speed respectively correspond to the same geometric position of the rotating shaft and are recorded to be used as waveform sequences; the two waveform sequences correspondingly subtract one by one, and a vibrated waveform sequence is obtained after the influence of eccentric vibration is eliminated.
Description
The present invention relates to a kind of mechanical vibration detection technique, specifically, it relates to the removal method of beat in a kind of rotating machinery shaft vibration detection.
The vibration root of rotating machinery is the vibration of rotor, the vibration of rotor comprises rotating shaft and bearing vibration, modern vibration monitoring and fault diagnosis system generally adopt eddy current sensor directly to detect the vibration of rotating shaft, and this method makes the precision level of vibration monitoring and analysis that qualitative leap arranged.Usually the turning axle radial vibration being detected is to adopt eddy current sensor, and it is the method for research and solution dynamic equilibrium problems and the basis of carrying out fault diagnosis that the turning axle radial vibration detects.Discuss the shaft vibration below and all be meant the rotating shaft radial vibration.But when detecting shaft vibration with eddy current sensor, the smooth degree on the out-of-roundness of rotating shaft and surface has a significant impact measurement.Thisly be called as beat by rotating shaft out-of-roundness and the uneven signal that causes of measured surface, they are superimposed upon on the true vibration signal, make people produce error, cause diagnosis and vibration processing unsuccessful, cause the failure of engineering practice and engineering research VIBRATION ANALYSIS and processing.The processing of beat is still a difficult problem in present technique field up to now.
At present, the processing to beat mainly is employing separates and remove the beat vector on first order component a method (seeing the ADRE3 of Bently company software systems instructions) both at home and abroad, can make field balancing become comparatively accurate and effective like this.Its basic thought is: also do not evoke vibration than under the slow-speed of revolution detected waveform being carried out processing such as fourier transform or correlation filtering, the amplitude of record first order component and phase place are as the beat vector, when under high rotating speed, carrying out vibration detection then its first order component vector and beat vector are subtracted each other, finally obtain the first order component of actual vibration.This disposal route is not harsh to the requirement of signals collecting, as long as can correctly obtain first order component.In addition, for the beat that only causes owing to the rotating shaft ovality, this processing can make the approximate preferably actual vibration of the vibration behind the beat.But, there is following defective in the method for this processing beat: at first be to reduce after treatment time domain waveform, because the beat waveform can be decomposed into the stack of infinite order component, the time domain waveform of true vibration of reducing must resolve into infinite order component with the waveform that detects, be reduced into time domain waveform by inverse transformation again after deducting corresponding beat component respectively, this obviously is impossible, and it can only carry out approximate processing to limited order component at most; The second, for the beat that causes owing to the rotating shaft injurious surface mark, the high order component of beat waveform is abundant, and only handling first order component is not enough certainly; The 3rd, if still contain the composition of beat in the above high order component of second order, it is inaccurate then utilizing this higher order signal to carry out fault diagnosis gained result.
The objective of the invention is to overcome the defective of above-mentioned prior art, the beat removal method in a kind of turning axle radial vibration detection is provided, this method can directly be removed the influence of beat in time domain.
For finishing above-mentioned task, the method that the present invention adopts is: 1. under the slow-speed of revolution, gather starting point with the control of key phase external trigger, utilize eddy current sensor by the displacement signal of branch collections such as the rotating shaft anglec of rotation from the outside surface of tested rotating shaft to described eddy current sensor, five equilibrium collection n 〉=64 of counting, record each point displacement signal forms wave sequence as the beat sequence; 2. under high rotating speed, carry out the collection of displacement signal according to the method that above-mentioned steps is 1. same with identical five equilibrium collection point number, consequently the same geometric position of corresponding described rotating shaft separately in the collection point under the high rotating speed and the collection point under the slow-speed of revolution notes displacement signal as the wave sequence under the high rotating speed; 3. with wave sequence under the high rotating speed and corresponding one by one the subtracting each other of wave sequence under the slow-speed of revolution, promptly obtain removing the wave sequence of the vibration after the beat influence.
When adopting said method, the slow-speed of revolution can be for being less than or equal to 400 rev/mins, and high rotating speed can be the operate as normal rotating speed; Also can a plurality of eddy current sensors be set on the diverse location of rotating shaft, and carry out described other step according to the needs of described tested rotating shaft balance.
Carry out data processing for ease of collection and computing machine, described five equilibrium collection is counted and can be 2
m, m 〉=6.
Adopt the beat removal method in the turning axle radial vibration detection directly to remove the beat influence in time domain.The process of frequency multiplication number is enough big when speed-frequency is carried out, and promptly to the five equilibrium collection point of a circumference when abundant, the error of utilizing the present invention to remove between the time domain waveform of time domain waveform behind the beat and true vibration may diminish to the degree of ignoring.At present, the utilizations in vibration detection and fault diagnosis such as computer technology and electronic technology are goed deep into day by day and are perfect, and it is more convenient and effective that the practical application of the inventive method also becomes thereupon.As can convergence to a branch collection point such as circumference infinitely many, detected data processing and analysis speed be also improved greatly.Therefore, when the present invention applies to various rotating machinery vibratings in the actual engineering and detects, can increase substantially and measure and analysis precision, save Measuring Time, thereby improve the construction quality level, reduce engineering accident, produce bigger economic benefit.
Time domain waveform behind the removal beat that beat removal method during the radial vibration of employing turning axle detects obtains is carried out processing such as spectrum analysis and analysis of orbit again, can really remove beat fully.
The present invention is described in further detail below in conjunction with accompanying drawing.
Fig. 1 gathers synoptic diagram for the rotating shaft anglec of rotation 64 branches such as grade;
Fig. 2 is multi-functional rotor simulator stand synoptic diagram;
Fig. 3 is for being that 3000 rev/mins, the slow-speed of revolution are the vibration time domain spectrogram of removing under 400 rev/mins of conditions behind the beat at high rotating speed;
Fig. 4 is for being that 3000 rev/mins, the slow-speed of revolution are the vibration time domain spectrogram of not removing beat under 400 rev/mins of conditions at high rotating speed;
Fig. 5 is for being that 2000 rev/mins, the slow-speed of revolution are the vibration time domain spectrogram of removing under 300 rev/mins of conditions behind the beat at high rotating speed;
Fig. 6 is for being that 2000 rev/mins, the slow-speed of revolution are the vibration time domain spectrogram of not removing beat under 300 rev/mins of conditions at high rotating speed.
In Fig. 1, by speed-frequency is carried out 64 process of frequency multiplication, be about to circumference 64 five equilibriums (n=64 just), with the starting point of key signal 1 as collection, collection under the different rotating speeds is a starting point with key phase mark 1, gather by illustrated rotating shaft anglec of rotation ω, key phase eddy current sensor 2 is noted the displacement signal of each collection point under the different rotating speeds.
In the multi-functional rotor simulator stand synoptic diagram shown in Figure 2, four bearings 5 are installed on the testing table base 3, four bearings 5 are coupled together by rotating shaft 4, at rotating shaft 4 middle parts a shaft coupling 6 is arranged, five balancing frames were in the rotating shaft 4 in 7 minutes, be equipped with one on each bearing 5 and be used to measure the speed pickup 8 that bear vibration is used, be equipped with altogether at the diverse location of rotating shaft and measure five eddy current sensors 9 that rotating shaft is used.The quantity of eddy current sensor is decided according to the needs of tested rotating shaft balance.
Embodiment 1:
Present embodiment adopts multi-functional rotor simulator stand shown in Figure 2 to carry out.At first, when the slow-speed of revolution was 400 rev/mins, as the displacement signal of branch collections such as starting point from the outside surface of tested rotating shaft to eddy current sensor 9, frequency acquisition was 64 frequencys multiplication of rotating shaft rotational frequency to eddy current sensor 9 with key signal, i.e. the five equilibrium collection n=64 that counts.Secondly, be under 3000 rev/mins at high rotating speed, count according to above-mentioned same method and five equilibrium collection and gather the displacement signal of each point.The displacement signal that collects is delivered to signal conditioner (this signal conditioner need have level conversion, ratio amplification, filtering, key phase shaping isolation features) respectively, signal conditioner becomes the receptible signal of computing machine with signal condition, (ADVANTECH grinds China in Taiwan to send Industrial Control Computer more respectively to, include All-in-one control main board and Pentium200CPU), carry out dynamic balance running, the test findings of not removing beat as shown in Figure 4; Resulting test findings as shown in Figure 3 after utilizing said method to remove beat.Because of the output unit of this system can use simultaneously for 8 eddy current sensors at most, and five eddy current sensors have only been used in the present embodiment, so wherein passage 1,5 and 6 is empty, other 5 passage data presented correspondences the wave sequence of the displacement signal formation of 5 eddy current sensor collections and are being removed the vibration time domain spectrogram that obtains behind the beat.Compare and show removing the vibration time domain spectrogram of not removing beat among vibration time domain spectrogram behind the beat and Fig. 4 among Fig. 3, go effect that the vibration data behind the beat carries out balance than not going beat to carry out the effective of balance according to method of the present invention, particularly be reflected in the vibration situation of passage 7 and passage 8.When not removing beat, passage 7 amplitudes are 71 μ m, and passage 8 amplitudes are 79 μ m; And behind the removal beat, passage 7 amplitudes are 20 μ m, and passage 8 amplitudes are 37 μ m.The bright beat removal effect of novel is good more more for amplitude, and the effect of balance is also good more.
Embodiment 2:
Vibration time domain spectrogram among Fig. 5 is equipment and the method that adopts similarly to Example 1, is 64 at frequency n, slow-speed of revolution v
1Be 300 rev/mins, high rotating speed v
2Gained when being 2000 rev/mins is compared with the vibration time domain spectrogram 6 that does not remove beat under the equal conditions, and the data effect same of passage 7 and passage 8 is obvious.
Generally speaking, the beat of turning axle radial vibration is big more, and the effect that employing the present invention removes beat is good more.
Claims (5)
1. the beat removal method during a turning axle radial vibration detects is characterized in that: 1. with the starting point of key signal as collection, the collection under the different rotating speeds is a starting point with key phase mark; Under the slow-speed of revolution, gather starting point with strong phase external trigger control, utilize eddy current sensor by the displacement signal of branch collections such as the rotating shaft anglec of rotation from the outside surface of tested rotating shaft to described eddy current sensor, five equilibrium collection n 〉=64 of counting, record each point displacement signal forms wave sequence as the beat sequence; 2. under high rotating speed, carry out the collection of displacement signal according to the method that above-mentioned steps is 1. same with identical five equilibrium collection point number, consequently the same geometric displacement of corresponding described rotating shaft separately in the collection point under the high rotating speed and the collection point under the slow-speed of revolution notes displacement signal as the wave sequence under the high rotating speed; 3. with sequence under the high rotating speed and corresponding one by one the subtracting each other of wave sequence under the slow-speed of revolution, promptly obtain removing the wave sequence of the vibration after the beat influence.
2. the beat removal method during turning axle radial vibration according to claim 1 detects is characterized in that: the described slow-speed of revolution is for being less than or equal to 400 rev/mins, gathers wave sequence under this slow-speed of revolution as the beat sequence; Described high rotating speed is the operate as normal rotating speed, gathers the wave sequence under this high rotating speed, and carries out described other step.
3. the beat removal method during turning axle radial vibration according to claim 1 and 2 detects, it is characterized in that: described five equilibrium collection point number is 2
m, m 〉=6.
4. the beat removal method during turning axle radial vibration according to claim 1 and 2 detects is characterized in that: according to the needs of described tested rotating shaft balance, a plurality of eddy current sensors are set on the diverse location of rotating shaft.
5. the beat removal method during turning axle radial vibration according to claim 3 detects is characterized in that: according to the needs of described tested rotating shaft balance, a plurality of eddy current sensors are set on the diverse location of rotating shaft.
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CN99120123A CN1126949C (en) | 1999-12-14 | 1999-12-14 | Method for eliminating eccentric vibration in rotation axle radial vibration test |
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CN99120123A CN1126949C (en) | 1999-12-14 | 1999-12-14 | Method for eliminating eccentric vibration in rotation axle radial vibration test |
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CN1126949C true CN1126949C (en) | 2003-11-05 |
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CN99120123A Expired - Fee Related CN1126949C (en) | 1999-12-14 | 1999-12-14 | Method for eliminating eccentric vibration in rotation axle radial vibration test |
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US9404791B2 (en) * | 2009-06-06 | 2016-08-02 | Nuovo Pignone S.P.A. | Lateral, angular and torsional vibration monitoring of rotordynamic systems |
CN102539072B (en) * | 2012-01-18 | 2014-12-10 | 山东电力研究院 | Field dynamic balance measuring device and method for utility boiler side fan |
CN103344321B (en) * | 2013-07-17 | 2016-02-24 | 华北电力大学 | Based on detection method and the device of the rotary body radial direction drift of electrostatic sensor array |
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Non-Patent Citations (1)
Title |
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《北京科技大学学报》VOL 16 增 1994-11-01 邹家祥等《圆锯片的动态特性》 * |
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