SU1330539A1 - Automated eddy-current flaw detector - Google Patents

Abstract

The invention relates to the field of non-destructive testing and can be used in the inspection of pipelines in the embedded state. The purpose of the invention is to increase the reliability and performance of the control by visualizing the defect after processing its image according to averaged characteristics. According to the program recorded in the memory of the electronic computer 13, the elements of the matrix 1 are polled using multiplexer 2. The signal is digitized and stored in the operational memory unit 8. The first data set is taken as basic and relative to it, all subsequent data sets are recorded at the expense of -. Dani threshold signal at the second input of the differential amplifier 6 digital-to-analog converter 10. After determining and comparing the arrays, the resulting image is constructed on the screen of the visualization unit 14. 1 il. (L to 00 About SP oo with

Description

The invention relates to non-destructive testing and can be used for flaw detection of pipelines in the built-in state.

The aim of the invention is to increase the reliability and performance of the control by visualizing the defect after processing its image according to averaged characteristics.

The drawing shows a block diagram of an automated eddy current probe.

The flaw detector contains a pathogen (not shown), a matrix 1 of sensing elements connected in series, multiplexer 2, amplifier 3, bandpass amplifier 4, detector 5, differential amplifier 6, analog-to-digital converter 7, and block 20 of the electronic-computer memory, 8 and also serially connected register 9 and a digital-to-analog converter 10 connected to the second input of differential amplifier 6, connected in series by counter 11 and multiplexer 12, the output of which is connected to volts The main memory of the main memory unit 8, the electronic computer 13, the visualization unit 14 and the synchronization unit 15 The outputs of the synchronization unit 15, the operational memory unit 8, the inputs of the visualization unit 14, multiplexers 2 and 12, the analog-digital converter 7 and the counter 11 connected to the backbone of the electronic computer 13.

The flaw detector works as follows.

At the initial moment, the electronic computer 13 installs a counter 11 into O and connects its output via multiplexer 12 to the input

block 8 of the RAM, then it increases the resolution, writes in register 9 the code of the darkest ability, expands the dynamic half-tone and connects the first element of the matrix 1 of the sensitive elements to the input of the amplifier 3 through multiplexer 2. gQ is shown) continuously generates sinusoidal eddy currents in a control object (not shown) of a fixed frequency and a constant amplitude :. The latter induce the emf in the elements of mat-55 proceeds to the determination of the normal force 1 of sensitive elements, cross sections and their analysis. Initially, the normalizer only from one of them is fed to the input of amplifier 3, amplified and fed to the input of the bandwidth signal bandwidth, as well as to stabilize the image tonality, which is reduced to the basic cross section and does not depend on the spread of the initial EMF in the matrix 1 elements. the section is considered normal.

After determining the basic cross-section of electronic computer I3

This section is subject to level discrimination. Thus, the presence or absence of a defect is determined. Broke down 4, which is tuned to frequency. the harmonic waveform is detected by detector 5 and fed to the first

input of differential amplifier 6. Since the national input from digital-to-analog converter 10, corresponding to the darkest semitone, is fed to the second input, the detected signal is amplified and fed to analog-to-digital converter 7, which converts the information signal into a digital form, suitable for writing to the memory block 8. After recording the information, multiplexer 2 connects to the amplifier 3 the next element of the matrix 1 of the sensitive elements, the counter 11 outputs an interrupt signal to the master.

13, through which information is transmitted to the electronic computer 13, after all the elements of matrix 1 are polled.

The first array read in this way is taken to be basic in the sense that when reading the next array, i.e. Obtaining the next pipe section along the longitudinal coordinate, all changes that have occurred in the controlled object are determined relative to this array. The base array can be replaced in any cases provided by the program.

work. After determining the base array, the electronic computer 13, prior to polling the next matrix element, exposes to the input of register 9 a code read from the corresponding cell of the basic array, thereby implementing the principle of b modulation, which provides the transfer of not the emf of the matrix element, but only its change compared to the base.

This allows to increase the resolution, to expand the dynamic proceeds to the definition of normal sections and their analysis. Initially, normal

the signal range, as well as the stabilization of the tonality of the image, which is reduced to the base section and does not depend on the spread of the initial emf in the elements of matrix 1. The resulting cross section is considered normal.

After determining the basic cross-section of electronic computer I3

This allows to increase the resolution, to expand the dynamic proceeds to the definition of normal sections and their analysis. Normal first

This section is subject to level discrimination. Thus, the presence or absence of a defect is determined. Uro31

The level of discrimination is set by software, so the same section can be analyzed at different levels with a single measurement. If a normal section with an amplitude level higher than the specified one is determined, then adjacent sections are analyzed and a section array is defined that belongs to the same defect, i.e. the defect is glued together. There are various gluing algorithms. The simplest of them: the sections belong to the same defect, if the angular coordinates of their elements, which carry information about the defect, differ by ± 1.

Claims (1)

After the array of sections belonging to the same defect is determined, the image of the defect is displayed on the visualization unit 14. Before this, the array of sections is quantized by level so that the level of the base section corresponds to the darkest semitone, and the level of the lightest semitone corresponds to the maximum amplitude in the section or vice versa. Usually choose the order of ten semitones. If necessary, the amplitudes displayed on the visualization unit 14 can be calibrated. Invention Formula Automated eddy current flaw detector containing the pathogen. Editor L.Povkhan Order 3576/46 Compiled by Yu.Glazkov Tehred I.Popovich Proofreader V. But ha Circulation 776 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 30539 A matrix of sensitive elements and a multiplexer and an electronic computer, connected in series, to which the multiplexer control input is connected, in order to increase the reliability and performance of the control, it is equipped with 10 connected in series efforts. a telegram connected to the output of a multiplexer, a bandpass amplifier, a detector, a differential amplifier, an analog-digital converter and a memory unit, the output of which is connected to the backbone of an electronic computer connected to the backbone 20 electronic computing machines, and digital-to-analog converter, the output of which is connected to the second input of the differential amplifier, connected in series with a counter 25 and the second multiplexer, connected between the backbone of the electronic computer and the address input of the memory unit, the visualization unit and the synchronization unit, 30 connected to the main line of the electronic computer together with the control inputs of the analog-digital converter of the RAM and the second multiplexer.