SU781689A1 - Ferroprobe defectoscope - Google Patents

Description

one

The invention relates to non-destructive testing devices and can be used to assess the structural state of products, such as bearing parts. S

A fluxgate flaw detector containing a source of magnetizing current for magnetizing the test object, a fluxgate, a generator for their excitation, and a series 10 connected amplifier of a ferrosonde excitation current, a detector, a selective amplifier tuned to twice the frequency of the magnetization current, and an indicator device.

However, the device has insufficient sensitivity due to the fact that the flaw detector responds to the amplitude of the doubled frequency of the magnetizing current.

The closest technical essence of the invention is a fluxgate flaw detector containing a magnetizing unit for magnetizing the product, fluxglobes, a high-frequency generator for their excitation, in series I connected the amplitudes of the second harmonic of the excitation current of the rorodds, a detector selective 3 @

- aariy-y -v:; .-, .-, .--; . - Amplifier of the highest harmonic component of the magnetizing current and amplitude-phase analyzer 2.

A disadvantage of the known device is the low accuracy of control of small-sized products, for example, measures of bearing components. It. associated with a significant effect of interfering factors on the control results.

The purpose of the invention is to improve accuracy.

The goal is achieved by the fact that the flaw detector is equipped with a rectifier (a maximum value converter connected to the detector and a detector of the ratio of the amplitude of the harmonic to the maximum value of the bend, the inputs of which are connected to the selective amplifier of the highest harmonic component of the magnetizing current and the rectifier maximum value output with amplitude-phase analyzer.

The drawing shows a block diagram of the proposed fluxgate flaw detector.

It contains a magnetizing unit 1 for magnetizing the product 2, ferro-thrust 3, a high-frequency generator 4 for exciting the fluxgate and a series-connected amplifier 5 of the second harmonic of the fluxgate excitation current, detector b, a selector amplifier 7 tuned to the third harmonic of the magnetizing current, an amplitude ratio detector of 8 amplitudes of the harmonics the maximum value, the amplitude-phase anyoshizator 9, as well as the rectifier converter 10 of the maximum value, connected between the detector 6 and the second input of the detector 8 from of wearing. The flaw detector works in the following way.

The controlled article 2 is magnetized by the magnetization unit 1 by a low-frequency sinusoidal magnetic field. The output signal of the fluxgate 3 is fed through the amplifier 5 of the second harmonic of the fluxgate excitation current to the detector 6. At the output of the detector b, an envelope of the modulated fluxgate signal containing harmonics that are multiples of the gating field is selected. The amplitudes and phase of the harmonics depend on the properties of the control object 1; From the output of detector 6, the signal is fed to a selective amplifier 7, designed to produce a third harmonic, and a rectifier converter 10, which is designed to receive a steady-state signal proportional to the maximum envelope emf value. The signals from the outputs of the amplifier 7 and the rectifying converter 10 are fed to the detector 8 ratios and further to the amplitude-phase analyzer 9.,

The controlled parameter is proportional to the ratio of the amplitude of the third harmonic to the maximum value of the floor. The latter, in its turn, is valid for the amplitude of the third harmonic of magnetization to the maximum magnetization of the product under test. Interfering factor (position instability

the object of control, the fluctuations of its dimensions) in a similar way, the influence of uT on both the amplitude of the third harmonic and the maximum value of the field. At the same time, the controlled factor (quenching temperature) affects the indicated parameters in different ways. As the quenching temperature increases, the 3rd harmonic magnitude of the magnetization increases, and the maximum magnetization decreases (or remains constant).

In this connection, the signal-to-interference ratio, and hence the control accuracy, increases.

Claims (2)

1. USSR author's certificate No. 345428, G 01 N 27/86, 1970. 2. USSR author's certificate 5 No. 515985, G.Ol N 27/82, 1976 (proto-ip).