CS237053B1 - Connexion for detection of crack fissure on conductive materials - Google Patents

Abstract

Involvement for Surface Detection defects, especially cracks on electrical conductive eddy current materials. The generator input is connected to the sensor the output of which is connected to the amplifier input with a modulator. Modulator output it is connected to the input of the decision circuit, whose output is connected to a level input member with signaling.

Description

The invention relates to circuitry for detecting surface defects, in particular cracks on electrically conductive materials by the eddy current method.

The detection of surface defects such as cracks on metallic materials is an important area of non-destructive defectoscopy, or non-dismantling diagnostics,

One of the defectoscopic methods by which these defects can be detected is the eddy current method.

In conjunction with transducers or through coils, this method can detect defects on all metal materials. The principle of the method is based on the effect of alternating magnetic field through which eddy currents are excited in the test item. The density and distribution of eddy currents are influenced mainly by the physical properties and dimensions of the test item and by the frequency of the alternating magnetic field. The eddy current magnetic field, in particular its effect on the primary exciting magnetic field, carries information about the condition of the test item. Systems with contact coil type sensors require suppression of the effect of moving the sensor from the surface to be tested. This suppression is necessary to avoid false indications when checking a rugged or rough surface or imperfectly guiding the sensor. In some cases, control without suppressing the effect of delaying would not be possible at all.

There are currently several ways to suppress the effect of delay. All these methods, however, require relatively complicated, especially re-setting and qualified personnel.

These drawbacks are overcome by the circuitry according to the invention intended for detecting surface defects, in particular cracks on electrically conductive materials. The principle of the connection according to the invention consists in that the sensor is connected to the input of the generator, to the output of which is connected the input of the amplifier with the demodulator, which is connected to the input of the decision circuit, the output of which is connected to the input of the level.

237,053 members and e signaling.

In particular, the circuitry according to the invention allows a quick and simple adjustment prior to measurement. Unlike other previously used devices, it is not necessary to repeat the stroke of the sensor or to re-attach it to the surface of the measured material.

The effect of delay in this device is unequivocally separated or distinguished from the effect of unconsciousness, which leads to the uniqueness of the indication being monitored. This arrangement places lower demands on the qualification of the operator of the test device.

An exemplary embodiment of the circuit according to the invention is shown schematically in the attached circuit diagram.

The eddy current crack detection circuit consisted of a sensor 1 in the form of a single winding coil as part of the oscillating circuit of the generator 2 connected to its output. The output of the generator 2 was connected to the input of the amplifier 6 with the demodulator, which was connected to the input of the decision circuit 4. The output of the level element 4 with signaling was connected to the output of the decision circuit 4. Testing is done by inducing eddy currents by its external magnetic field when applied to the surface of the test item and at the same time by changing its impedance and oscillation frequency of the generator 2 ' _{9 the} fused generator 2 together with the sensor 1 forms a system and detaching the sensor 1. This system is characterized in that the presence of the defect causes a decrease in signal amplitude and a stroke of sensor 1 to increase it. This provides conditions for the function of the decision circuit 4 where the signal is applied after amplification and demodulation. The level member% s signaling then allows to indicate defects from a certain predetermined size.

Claims (1)

Subject of the invention ^at 237,053 Eddy current method for detecting surface cracks on electrically conductive materials, characterized in that a sensor input (2) is connected to the sensor (1), the output of which is connected to the amplifier input (3) with the demodulator connected to the decision input (4), the output of which is connected to the input of the level member (5) with signaling.