SU376708A1 - Ferrozondage flaw detector for control - Google Patents

Description

I

The invention relates to a measurement technique and can be used in the destructive testing of products.

Fluxgate flaw detectors for monitoring the surface of cylindrical ferromagnetic products are known, comprising a device for circular magnetization, a multielement fluxgate sensor, a device for rotating the sensor around the product, and an electronic unit including a series-connected amplifier, a matching circuit, and an indicator.

The known device does not allow detecting extended defects, since the output signal appears at the work hardening, burn-in and other defects, over which the sensor core is located.

In order to increase the selectivity to extended defects, the proposed flaw detector is equipped with series-connected resonant amplifiers connected by inputs to each of the sensor elements and detectors whose outputs are connected to a coincidence circuit.

The drawing shows a block diagram of the proposed device.

The flaw detector contains a flux-gate sensor /, which is used to detect defects on the surface of the monitored product and consists of a set of flux-probes — gradiometers 2. A sinusoidal voltage generator 5 feeds sensor 1, the measuring windings of which are connected to its channel consisting of a resonant amplifier 4 and a detector 5. All channels are connected to a coincidence circuit 6, the output of which is connected to the indicator 7. The devices for circularly magnetizing the product are not shown in the drawing. The device works as follows.

The controlled product is magnetized by a circular field of current flowing through it, which creates a scattering field on its surface caused by the presence of a defect and magnetic inhomogeneities. While rotating

sensor / around the product in the fluxgate 2 occurs e. d. The field of magnetic inhomogeneities has a random character, therefore the output is e. d. not in all flux-probes, if the scattering field is caused by a crack-type defect with a length equal to or greater than the sensor length, then e. d. Wits in the measuring windings of all flux-gates at the same time. The signal from each of the flux-probes fed

from oscillator 3, enters a resonant amplifier 4, where it is filtered by the second harmonic and amplified. The signal is then fed to detector 5, where it is detected, and then to coincidence circuit 6. The latter issues a signal only if

input signals from all detectors simultaneously. The fault about the presence of a defect from the coincidence circuit enters indicator 7.

In this way, the selectivity of control to defects such as cracks is increased and rejection of products, such as rolled products, is reduced due to random magnetic inhomogeneities on the surface.

Subject invention

A fluxgate flaw detector for monitoring the surface of ferromagnetic products of cylindrical shape, containing a device for circular magnetization, a multielement ferrozokdny sensor, a device for rotating the sensor around the product, and an electronic unit that includes an amplifier connected in series, a coincidence circuit, and an indicator that , to extended defects, it is equipped with series-connected resonant amplifiers, connected by inputs to each of the elements and Chica and detectors, the outputs of which are connected to the coincidence circuit.