DE4123576A1 - METHOD AND ARRANGEMENT FOR DETERMINING THE CAUSE OF CONTAMINATION IN SLIDING BEARINGS - Google Patents

Description

Method and arrangement for the cause detection of scrapers Forms in plain bearings are used for plain bearings particular of turbines, pumps, electric motors and Internal combustion engines.

The invention is intended to explain the causes of grazing in Detect slide bearings without delay to the relevant Ma take preventive measures out of service.

Rotors of large turbomachinery and pumps are invariably guided by plain bearings in the housing. Electric motors and Ver Large-capacity combustion engines have slide bearings. For special sealing tasks between rotor and housing are also sliding pairings, z. B. mechanical seals used. These bearings have great loads take and are operated at high speeds. You determine This is why the reliability of the units is decisive. The Monitoring such plain bearings is therefore the greatest attention donated.

The operational practice shows, however, that especially low gige, beginning changes in storage due to Abnut (wear, fatigue), overstressing (unbalance), Un regular lubrication (temperature, quantity, ver pollution), thermal effects on the geometric Location of the usually multiple supported rotors still in the insufficiently diagnosed (Sturm, Uhlemann: Ma Schinenbautechnik, Berlin 34 (1985) 3, pp. 129-30 132).

Friction state changes of hydrodynamic fluid friction in mixed friction can be measured with the help of sound emission analysis be detected without delay.  

Known methods and arrangement for Maschinenelementezu Stand determination (DD-PS 2 48 036) and detection method for Particles in the lubrication gap of plain bearings (DD-PS 2 80 263). These methods use the pulse density as a diagnostic paradigm meters and require the setting of a discriminator level for the separation of interfering and useful signals. Through analysis in the Time, frequency and probability range Frequency and amplitude of periodic changes of the Im Pulse density determined as a measure of the damage state who the. The result of the signal analysis, however, is from Discriminator level dependent, so that quantitatively wrong statements arise.

Another disadvantage is the high apparatus and time required for analysis and evaluation.

Internationally known methods use the form of Ein shrouding the sound emission signal over a noise emission sion event (EP 02 09 862) or the periodicity of Ein enveloping (EP 00 28 081) for determining the acoustic emission cause, but not conclude on the causes of friction can be gert. That's a disadvantage. A provision of Causes of scrapping in plain bearings, d. H. the Determination of direct contact between shaft and bearing shell, is not with the known methods and arrangements possible.

The method is based on the task for causal purposes of glancing phenomena in slide bearings the Schallemis sion as a diagnostic parameter and after that Frequency analysis to form a key figure.

According to the invention, the noise emission at the sliding bearing of a sound emission sensor by known methods he takes, converted into an electrical signal, a filtering and amplification supplied. From the filtered signal is  a sound emission parameter is formed, which is a frequenzse is sent to a selective monitoring unit, which is Rotation frequency of the shaft is controlled. As Schallemissionspa rameter can be the rms value, the envelope or the impulse density of the sound emission can be used. From the comparison the amplitudes A can be determined a diagnostic code, the different Rei within certain ranges of values attributable to causes of causes. The diagnostic code will be off the amplitudes A of the single, double and one and a half times Drehfrequenten shares of the sound emission parameter in the shape

determined with f _n rotational frequency of the rotor shaft. On the one and a half times the rate of rotation of Schallemissionspara meters can be waived, if it is known that there are on streaking.

Essential to the invention is also that the Schallemissionspa parameter with an integration time constant that the Duration of a maximum of 1/10 shaft revolution corresponds.

The arrangement is based on the object, the erfindungsge to realize appropriate procedures.

The problem is solved by the arrangement in that at at the output of the processing unit to form the Schallemissionsparameters a frequency-selective Überwa unit whose outputs have evaluation logic are connected.

The practical realization can be with both analog and done with digital assemblies.  

According to the invention, the following technical progressiveness reached:

• 1st possibility of delay-free fully automatic Er investigating the causes of grazing in sliding doors store, z. B. Lagerverkantung, lack of lubricant, Unbalance.
• 2. Unique status recognition and display by user tion of an easily formed diagnostic code from the Amplitudes of the frequency components of Schallemissionspa rameters.
• 3. Low equipment cost of the automatic Überwa with simple operation guidance.
• 4. Universal applicability to a large number of sliding stocked machines for production control, assembly cons trolls and operational monitoring.

The invention will be described below with reference to two embodiments explained.

In the drawings show:

Fig. 1 frequency spectrum of the short-term effective value of the noise emission in the absence of lubricant

Fig. 2 frequency spectrum of the short-term effective value of the sound emission at Rotorunwucht

Fig. 3 frequency spectrum of the short-term effective value of the sound emission Lagerlagerantung

Fig. 4 embodiment of the arrangement

example 1

The in a plain bearing in case of squashing the rotor wave on the bearing shell resulting high-frequency sound Emission is provided by a sound emission sensor, which is in stock Housing is attached, received and in an electrical Signal converted, in a high pass filter of low frequency Disturbance parts separated, amplified in an amplifier and on closing in a short-term rms meter for short time Effectively processed the sound emission.

The time course of the short-term effective value of the sound emission has in the case of lubricant deficiency or rotor imbalance in the case of a rubbing of the rotor shaft on the bearing shell overshoots at intervals of one shaft revolution. In the frequency spectrum, the rotational frequency dominates with its harmonics ( FIGS. 1 and 2). When Lagerverkantung arise within a Wellenum rotation in the event of tearing of the rotor shaft on the La gerschale due to residual imbalance two increases the Reibungsin intensity. In the frequency spectrum, therefore, the double rotational frequency dominates ( FIG. 3).

Two frequency-selective monitoring units detect the Am plituden the Drehfrequenten and double-rotational frequency Kompo nents that are in a valuation logic for the diagnosis key figure

be linked with f _n rotational frequency of the shaft. Within certain ranges of values, a clear assignment to causes of friction can be made:

Diagnostic code D _{R '} friction cause <D _{R '} 1 Stock canting D _{R '} 2. , , D _{R '} 3 lack of lubricant <D _{R '} 4 rotor imbalance

Example 2

The recorded in the acoustic emission sensor 1 sound emission signal of the sliding bearing is in a bandpass filter 2 (lower limit frequency 100 kHz, upper limit frequency 200 kHz), filtered and amplified in the amplifier 3 by 40 dB. In the RMS 4 , the RMS value is determined for the amplifier output signal with an integration time constant corresponding to the duration of 1/10 shaft revolution. From the rms value curve, the amplitudes of three frequency components are determined in the bandpass filter. The setting of the center frequencies via a control unit 8 , at the input of a speed pulse train (one pulse per revolution) is applied. In the evaluation logic 6 , the diagnosis code is formed and signaled as a result of their classification into specified ranges of the Anstreif causes.

List of reference numbers

Fig. 4:

1 sound emission sensor
2 filters
3 amplifiers
4 RMS meters
5 bandpass filter
6 Evaluation logic
7 speed sensor
8 Control for bandpass filtering

Claims (6)

1. A method for determining the cause of ghosting in sliding bearings, wherein the acoustic emission detected on the sliding bearing, converted into an electrical signal, a filter tion and amplification and then processed to a sound emission parameter, characterized in that the acoustic emission parameter is fed to a frequency selective monitoring unit , which is controlled by the rotational frequency f _{R of} the wave, and in which a diagnostic ratio D _R in the form of a difference quotient of the amplitudes A of the single, double and one-half rotational speed components of Schallemissionspara meters in the linkage of formed and this obtained from the signal processing diagnostic code D _R is displayed and assigned within certain ranges of the causes of friction. 2. The method according to claim 1, characterized in that the sound emission parameter with an integration time constant is formed, the duration of a maximum of 1/10 Shaft rotation corresponds. 3. The method according to claim 1, characterized in that as the sound emission parameter of the RMS value, the envelope curve or the momentum density of the acoustic emission used becomes.   4. The method according to claim 1, characterized in that the diagnostic code by the quotient of the Amplitu the A of the rotational frequency and double rotational frequency component the sound emission parameter is formed. 5. The method according to claim 1, characterized in that the diagnostic code from the RMS value or the signal performance of simple, double and one and a half times rotational frequency components of the acoustic emission parameter ge is formed. 6. Arrangement for the continuation of the procedure for causes averaging scuffing in plain bearings, wherein a arranged on the sliding bearing noise emission sensor with connected to the input of a filter and amplifier, its output to a processing unit for formation the sound emission parameter is connected, gekenn characterized in that at the output of the processing unit to form the sound emission parameter a frequenzse The selective monitoring unit is based on a speed controlled and their outputs with a Bewer logic are connected.