SU905765A1 - Method of two frequency electromagnetic checking of ferromagnetic articles - Google Patents

Description

The invention relates to non-destructive methods of testing materials and can be used in the inspection of metal structures of building objects. The known method of non-destructive testing by determining the magnetic parameters of the medium, in which the product is magnetized using a flux-gate converter excited by a high-frequency current, separates the second harmonic of the excitation current from the signal removed from the measuring windings of the converter, the selected harmonic is additionally fed to the converter's winding and multiple harmonics are extracted from the measuring windings signal, by which a defect is judged. However, the known method does not provide Qdim accuracy measurement. The closest to the invention according to the technical essence is the method of dual-frequency electromagnetic control of ferromagnetic products, which means that the product is simultaneously affected by two fields of different frequencies (1 and WQ and the amplitudes are 1 O-phase analysis of the output signal of the 2 J converter. Disadvantages This method is characterized by low noise immunity and reliability of control, due to the fact that informative is the first harmonic of the output signal of the converter, i.e. the exciting voltage frequency and The purpose of the invention is to improve the noise immunity and reliability of the control. The goal is achieved by the fact that the frequencies (JU; | and Sha. of the fields are chosen from the condition of the OC-quality informative use the output signal component with the frequency “J), where N b 2, 3, ..., p.

The drawing shows a device that implements the method.

The device comprises a low-frequency generator 1, a high-frequency generator 2, a mixer 3, a power amplifier, an inductive converter mounted on a controlled product and containing an excitation winding 5 and a measuring winding 6, an amplifier 7 a band-pass filter 8, an amplitude-phase recorder 9, a multiplier 10 frequencies and phase shifter 11.

The method is as follows.

in a way.

V, oscillations S. yastot from the generator 2; high frequency is fed to one of the inputs of the mixer 3. to the other input receives a signal with a frequency of .0. from the generator 1 low frequency.

The signal spectrum at the output of the mixer 3 contains two components with

totawi isJ 0+ and Ofg (fo- 61, moreover

W, + wow .. Signal,

. , ttl, 2, strong in power by amplifier 4, is fed to the drive winding 5 of the converter. A signal appears on the output of the measuring winding 6 of the converter, the spectrum of which contains components at the excitation frequencies cr; -, She and the combination frequencies 2N), due to 35 nonlinearity of the magnetization characteristic of the product material, where N; .

From the output of the measuring winding 6, the signal through the amplifier 7 and the band-pass 4o filter 8, tuned to the frequency W W (ttl / t-tfi), goes to one of the inputs of the amplitude-phase recorder 9, to the second input of which the voltage of the reference frequency is applied from generator 1 a low frequency through a multiplier 10 and a phase shifter 11, serving for the initial setting of the phase of the reference voltage.

The method provides increased control reliability by reducing the level of interference in the amplitude-phase recorder 9, since the informative signal is recorded at the frequency W-3, N (lt), which is significantly less than W ,, (%, siud and its value can be selected not multiple the specified frequencies.

Claims (2)

This provides an increase in the signal-to-noise ratio due to active suppression of the high-frequency components. Invention Formula The method of dual-frequency electromagnetic control of ferromagnetic products, which consists in the fact that the product is simultaneously affected by two fields of different frequencies and). and CO and an amplitude-phase analysis of the output signal of the converter, which differs in that, in order to improve the noise immunity and reliability of the control, the frequencies tf-f and. fields are chosen from the condition (l) ,,, and as an informative component of the output signal with a frequency, M (), where N 1, 2, 3, ... n, Sources of information1 taken into account in the examination Ch. USSR author's certificate 71N59, cl. G 01 N 27/86, 1979. 2. USSR author's certificate W 588492, cl. G 01 N 27/86, 1978 (prototype). Tue I eleven No