SU1117476A1 - Device for bearing vibrational diagnostics - Google Patents

Abstract

A DEVICE FOR VIBRATION DIAGNOSTICS OF BEARERS, containing a series-connected vibration sensor, a first filter and a first amplifier, as well as a diagnostic parameter meter and indicator, characterized in that, in order to improve the quality of diagnostics by increasing the noise immunity, it is equipped with series-connected comparator, the first and second matching blocks, the second filter and amplifier, as well as the source, reference voltage, the first and second inputs of the comparator are connected respectively to you odes of the first amplifier and the reference voltage source, and the second amplifier output - to an input parameter .diagnosticheskogo meter. Ya

Description

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O) 1 I The invention relates to the bearing industry and can be primarily used for vibrating bearing diagnostics. A device for vibrating diagnostics of bearings is known, comprising a serially connected vibration sensor, a first filter and a first amplifier, as well as a diagnostic parameter meter and indicator ij. However, the known device has the disadvantage / that it has a poor diagnostic quality due to poor noise immunity. The purpose of the invention is to improve the quality of diagnostics by increasing the noise immunity. The goal is achieved by the fact that a device for vibrating bearing diagrams, containing a first filter and a first amplifier connected in series by a vibration sensor, and a diagnostic parameter meter and indicator, are equipped with a first and second matching blocks connected in series, a second filter and amplifier, and a source of reference voltage. first, the second inputs of the comparator ora are connected respectively to the outputs of the first amplifier and the source of the reference voltage, and the output of the second Amplifier - at the input of the diagnostic parameter meter. The drawing shows the block diagram of the device. The device contains sequentially connected vibration sensor 1, the first filter 2, the first amplifier 3, the comparator 4, the second input of which is connected to the source 5 of the reference voltage, the first matching unit 6, which through the coaxial cable 7 is connected to the second matching block 8, which is serially connected with the second filter 9, the second amplifier 10, the diagnostic parameter meter 11 and the indicator 12. The vibration sensor I, the first filter 2, the first amplifier 3, the comparator 4, the source 5 of the reference voltage and the first matching unit 6 Ktivno united in the remote part of the device, which is installed on the object of diagnosis. The remaining components are located to the ocffOB762 part of the device, which is installed, for example, and the central control station. The remote and main parts of the device are connected with coaxial cable 7. The first matching unit 6 and the second matching unit 8 are used to transmit both the useful signal coming from the remote device and the power supply voltage of the remote part through one coaxial cable 7. The device works as follows. The mechanical vibrations accompanying the operation of the object of diagnostics, as well as vibrations emitted by the faulty bearing, reach the vibration sensor 1, where they are transformed into electrical signals, Per-i. The second filter 2 serves to isolate the component signals due to the operation of defective bearings and to suppress the components caused by the operation of other elements of the object being diagnosed. The filtered signals are then amplified in the first amplifier 3 and fed to the first input of the comparator 4. From the output of the comparator 4, the amplitude-normalized signals go to the first matching unit 6 and are directed through the coaxial cable 7 to the main part of the device. The input of the second matching unit 8 receives signals, which are a mixture of signals: pulses coming from the output of the first matching unit 6, as well as interference and pickups, mainly caused by the proximity of the connecting cable 7 to the power circuit. In the second matching unit 8 A permanent delivery, intended to power the remote part of the device, is separated from the signal mixture coming through the cable 7. In the second filter 9, low-frequency interference and interference are suppressed. In the second amplifier 10, amplified filtered rectangular signals are amplified in order to restore their shape after passing through the long connecting cable 7. The rectangular signals restored by the steepness of the edges and the amplitude go to the diagnostic parameter meter II, for example, a frequency meter. Recognition of an EI I I 7D7B readout bearing. Diagnosed by the device. The efficiency of the device is based on increased costs from accidents and downtime, indications of indicator 12. caused by delays and bearings.

Claims (1)

A DEVICE FOR VIBRATION DIAGNOSTICS OF BEARINGS, containing a serially connected vibration sensor, a first filter and a first tical parameter and an indicator, characterized in that, in order to improve the quality of diagnostics by increasing noise immunity ^ it is equipped with a serially connected comparator, first and second matching units, a second filter and the amplifier, as well as the source of the reference voltage, the first and second inputs of the comparator are connected respectively to the outputs of the first amplifier and the source of the reference voltage, and the output of the second amplifier - for - with the input of the meter. Diagnostics amplifier, as well as the meter of the diagnostic parameter. I I I 74 76