SU1245987A1 - Device for complex non-destructive testing - Google Patents

Abstract

The invention relates to means of non-destructive quality control of materials and products and can be used for one-sided control of pipe shells using ultrasonic and eddy current methods. The purpose of the invention is to increase the reliability of monitoring. The device contains a transducer and a signal processing unit connected to it, consisting of eddy current and electromagnetic acoustic channels. The converter contains two exciting and two measuring windings placed respectively one under each pole of the magnet, and the measuring windings are switched on differentially and connected to the inputs of both channels. The signal processing block contains a pulse pulse generator, the first output of which is connected to the exciting windings, the second to the gate input of the amplifier of the electromagnetic-acoustic channel, and the third through the NOT to the second input of the eddy current channel containing the And circuit connected to the amplifier. 1 il. Q (L N5 4 O1 CO 00

Description

one

The invention relates to means of non-destructive quality control of materials and products, in particular, to one-sided control of the shells and pipes using the advantages of ultrasonic and eddy current testing methods.

The purpose of the invention is to increase the reliability of the control due to the detuning from the effect of anisotropy of the product material on the measurement results, as well as a change in the speed of the product relative to the transducers under dynamic control.

The drawing shows a block diagram of a device for integrated non-destructive testing.

The device contains a converter, made in the form of a magnet 1, placed under its polarity (two exciting windings 2 and 3 and two differentially connected measuring windings 4 and 5. Exciting windings 2 and .3 are connected to a pulse generator 6, and measuring windings 4 and 5 to the signal processing unit, which includes the amplifier 7 of the electro-acoustic channel and the AND 8 circuit of the eddy current amplifier 9. The third input of the pulse generator 6 is connected to the control input of the amplifier 7, and its second output is connected through the HE 10 circuit to orym input AND gate 8.

The device works as follows.

The generator 6 generates exciting pulses, which, through two exciting windings 2 and 3, induce eddy currents in the skin layer of the product. At the same time, in the measuring windings 4 and 5, EMF is induced, reflected from the product surface by an electromagnetic field in the skin layer of the product, acoustic oscillations are excited. The induced EMF in the windings is added with opposite signs - in the absence of a defect in the surface layer of the product, the voltage at the output of the converter windings 4 and 5 is O, and in the event of a defect, the error signal appears through circuit 8 at the second input of which at this time there is a permitting inverted generator pulse 6, to the input of amplifier 9.

Temporary selection of qcHOBaHO flaw detector channels on automatic459872

acoustic delay of the signal of the acoustic signal relative to the vortex of the Vogo channel. Signal on measuring: windings Appears one5 temporarily with a signal in the excitation windings of the converter and enters the input of both channels, in addition, due to eddy currents in the skin layer of the product, acoustic impulses are excited in the material of the product. Due to the gating of the amplifier 7 of the acoustic channel by a generator pulse 6, the channel is turned off from the reception and processing of eddy current signals and

tS amplifier output -7 no signal. At the same time, the signal arriving at the input of the amplifier 9 of the eddy current channel is amplified due to the presence of an oscillator permissive pulse, projected by the HE 10 circuit, and appears at the channel output. After the delay time of the acoustic signal due to the relatively low speed of propagation of acoustic

With 25 oscillations, it appears at the input of the saturation of their channels. Eddy current channel

In the absence of the permissive pulse of the generator 6, it is closed for receiving and processing the signal and at its output a signal does not appear. At the same time

the acoustic channel is open to receive signals, since the strobe gaming pulse generator is absent. In this way, information is separated from one pair of differentials;

P-rmula of the invention

40 A device for integrated non-destructive testing, comprising a generator, a converter connected to it and a signal processing unit connected to the converter, consisting of 5 eddy current and electromagnetic-acoustic channels, each of which includes an amplifier that has By the fact that, in order to increase the reliability of the control,

0 it is equipped with series-connected NOT circuit, whose input is connected to the generator output, and AND circuit, whose output is connected to the input of the eddy current amplifier, the generator is pulsed and its third output is connected to the control input of the acoustic-acoustic channel , and the converter vy31245987. four

more complete in the form of a magnet and placed windings and two differentially turned on under its poles of two .. exciting measuring windings.

YU

Editor N. Yatsola

Compiled by I.Keso

Tehred I.Popovich Proofreader A.T.

3992/36

Circulation 778. Subscription VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

Claims (1)

A device for complex crushing control, comprising a radiator, a transducer connected to it, and a signal processing unit connected to the transducer, consisting of eddy current and electromagnetic-acoustic channels, each of which includes an amplifier, characterized in that, in order to increase the reliability of the control, it is equipped sequentially connected by a NOT circuit, the input of which is connected to the output of the generator, and an And circuit, the output of which is connected to the input of the eddy current channel amplifier, the generator is pulsed and its this output is connected to the control input of the amplifier of the electromagnetic-acoustic channel, and the converter