SU1293639A1 - Method of vibroacoustical checking of articles - Google Patents

Abstract

The invention relates to non-destructive testing and can be used to diagnose the strength of mechanical structures. The aim of the invention is to improve the quality of control by making it possible to determine the location of the defect. When inspecting a product at several points, oscillations are induced by harmonic forces. The frequency and amplitude of the harmonic forces changed before the onset of resonance. The points of application of the amplitude varying in amplitude are changed relative to the point of application of a constant force. The position of the point at which the sign of the ratio of the amplitudes of the forces in the initial and subsequent measurements is determined is determined. According to the position of the found point, a defect is found. 1 il. c & d about

Description

The invention relates to non-destructive testing and can be used to diagnose the strength of mechanical structures.

The purpose of the invention is to increase the quality of control by making it possible to determine the location of the defect.

The drawing shows a diagram of the device that implements the method of vibro-acoustic control of products,

The device contains an excitation unit 1, an oscillation analysis unit 2, controlled -product 3, an excitation unit 1 contains a harmonic signal generator 4 connected in series, a force selection unit 5, amplifiers 6 and exciters the output of a harmonic signal generator 4 is connected to one of the inputs of the oscillation analysis unit 2 .

The method of vibroacoustic control is carried out as follows.

In the controlled article 3, the excitation is given by two vibration exciters 7 elastic oscillations. The first force is applied inside the controlled zone, the second - to the border of the controlled zone (point a). Near the points of application of forces, with parameters of block 2, parameters are measured, or displacement, or speed, or acceleration, which is determined by the choice of vibration sensors) of the controlled device 3 and the in-phase and quadrature components of the oscillation parameters. Using the generator 4, the frequency of the harmonic forces acting on the controlled product 3 is changed, and with the help of the force selection unit 5, the ratio of the amplitudes of the forces before the occurrence of phase resonance, in which there is no in-phase component of the displacement or quadrature component of the oscillation velocity. At the frequency of the phase resonance, the amplitude of the forces acting at two points on the side of the vibration exciters on the controlled product is measured. The ratio of the amplitudes of these forces is calculated. These actions are then repeated with a change in the point of application of the first force and a corresponding change in

Node measurement point fluctuations. In the oscillation parameters near the points of the controlled product, the initial results of the calculation

Nn

ratios of amplitudes of forces T „, F„

g, m

ab

- a.d

 O.C

under which provide-

 with phase resonances, indicating the points of location of the exciting forces (ab, ac, ad, ae).

At the next inspection of the product, the point a of application of the second force, the points b, c, d, e of the application of the first force, and the points of measurement of the oscillations are possible. The above operations are repeated and the ratio of the amplitudes of the forces F is entered in the passport of the monitored product, at which the phase resonance 1 is provided when excited, for example, at points a and b. Then, the location of the application of the first Force is changed, successively increasing the length of one segment and decreasing the length of another segment of the controlled zone, i.e. excite the first power at point s, then at point d, etc. The magnitude ratio of the amplitudes of forces for

phases of new resonances F,

Fc.d with

ab

:

 , d j, calculate the magnitudes and the sign of the difference, F, - are the ratios of the amplitudes of the forces for the phase resonances obtained at the next initial control of the excitation of oscillations of the product at the same points. The location of the defect is determined by the position of the first force, at which the sign of the calculated difference in the ratio of the amplitudes of the forces changes.

50

The accuracy of determining the location of the defect is determined by the length of the sections that are set during the initial control by selecting the points of application of the first force and are stored at the next 1x coitroles. The ability to determine the location of a defect improves the quality of control and expands the scope of application of the vibroacoustic method.

45 control

Claims (1)

Invention Formula The method of vibroacoustic control of 50 l products, which consists in that oscillations are induced by harmonic forces in a controlled product at several points, the in-phase and quadrature components of frequency, change the frequency of the harmonic forces before the occurrence of phase resonance, measure the amplitude of the forces at the moment of phase resonance, the magnitude of the deviation of the amplitudes of the forces for each phase resonance and these values determine the defectiveness of the product. It differs by the fact that, in order to improve the quality of control, the first force, varying in amplitude, is applied inside the controlled area of the product, the second constant amplitude At this point, a force is applied at the boundary of the controlled zone, successively changing the place of application of the first force inside the zone and according to the position of the point in which the difference in the ratios of the amplitudes of the first and second forces for the initial and subsequent measurements at selected points of application of the force changes sign, find defect.