CS256411B1 - Method of space defects' dimensions determination and device for its realization - Google Patents

Abstract

The method is intended to determine the dimension spatial defects in the direction of radiation, at non-destructive material inspection through the television display chain. Its essence is that in a section guided by the detected video error creates a brightness profile whose individual points are obtained by sampling and summing corresponding video signal samples from a preset number of TVs images. The resulting brightness profile after tilting 90 ° graphically displayed at the TV edge screen.

Description

BACKGROUND OF THE INVENTION The present invention relates to a method and apparatus for determining the dimension of a spatial defect in the direction of radiation in a non-destructive material inspection by means of a television display chain.

The basic method of determining the dimension of the spatial defect in the direction of radiation during non-destructive material testing is based on objective and subjective evaluation of the radiogram. Although, in particular, the objective method of densitometer evaluation satisfies the requirements for measurement accuracy, its use is impossible tse, where nowadays radioscopy using television technology displaces slow and expensive radiography. Radioscopy provides immediate imaging, but requires a means to objectively determine local luminance differences that carry information about the size of the defect in the direction of radiation. In industrial flaw detection, it is generally not possible to use a densitometer directly attached to the output screen of the X-ray brightness amplifier, because of the need for considerably complicated measures to protect the evaluator from radiation exposure. Therefore, it remains to use a closed-circuit television and base the measurement of luminance differences on the measurement of the video signal. The video signal inside the measuring window produced by a special generator is analyzed according to the known method.

The disadvantage of this method is that only larger luminance differences can be reliably determined and that this method does not provide clear information about the conditions around the measuring window.

The aforementioned drawbacks of the previously used methods of determining the dimension of spatial defects in the direction of radiation during non-destructive material inspection are eliminated by the method according to the invention, which consists in creating a brightness profile from the video signal. and summing corresponding video samples from a preset number of TV frames, and the resulting brightness profile is displayed graphically at the edge of the TV screen when tilted 90 °.

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The method implementation instruction consists of an analog-to-digital converter and a digital memory connected to a profile display block, the profile display block being connected to a combining circuit connected to the signal input of the analog-to-digital converter.

The arrangement of the device according to the invention is preferably such that the analog-to-digital converter is connected to the first input of the adder, which is further connected to a digital memory, the output of which is connected to the second input of the adder and to the profile display block. The profile display block is further connected to the first input of the merge circuit, wherein the analog-to-digital converter, adder, digital memory and profile display block are connected to a common control circuit which is preceded by a synchronization separator connected simultaneously to the analog-to-digital converter signal input. combining circuit®

Another advantageous arrangement of the device according to the invention is that it consists of a sampling amplifier which is connected to an amplitude-time converter, which is further connected to the signal input of the time-number converter, connected further to the digital memory whose output is. connected to the digital input of the time-number converter and to the digital input of the number-time converter. The number-to-time converter is connected to the first input of the merge circuit. The sampling amplifier, amplitude-to-time converter, time-to-number converter, digital memory and number-to-time converter are connected to a common control circuit, which is preceded by a synchronization separator, connected simultaneously to the sampling amplifier signal input and to the other - number and converter number - time are connected to the clock generator at the same time.

By using the method and apparatus of the present invention, while maintaining the accuracy of densitometric evaluations of radiograms and radiation safety, significantly higher measurement rates and easier and more reliable interpretation of measurement results are achieved. High measuring speed results from the connection to television technology. The display of the brightness profile within the defectoscopic image is in the same length scale and it is possible to use any conversion - mapping of measured values. A further advantage of using the method and apparatus according to the invention is that the summation of the samples reduces the influence of accidental noise and makes it possible to evaluate even very small luminance differences.

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Embodiments of the method according to the invention are shown schematically in the attached drawing. In FIG. Fig. 2 is a basic block diagram of the device; 3 shows a block diagram of one particular embodiment of the device; a block diagram of another particular embodiment of the device according to the invention.

The apparatus of Fig. 1 for carrying out the method according to the invention consists of an analog-to-digital converter 2, which is connected to a digital memory 4. The digital memory 8 is connected to a profile display block 5, which is connected to the merge circuit 6. with signal input 21 of the A / D converter 2.

In the exemplary embodiment of the apparatus of FIG. the input terminal 7 is connected both to the signal input 21 of the A / D converter 2 and to the input of the sync separator 2 and to the other input 62 of the merge circuit 6, the output of which is connected to the wiring output terminal 9 connected to the television monitor. The analog-to-digital converter 2 is connected to the first input 31 of the adder 3, the output of which is connected to the data memory 41 of the digital memory 4, the output 43 of which is connected to the second input 3.2 of the adder 3. the output of which is connected to the first input 61 of the merge circuit 6. The output of the sync separator 2 is connected to the input of the control circuit β, the outputs of which are connected in series to the control input 22 of the A / D converter. control input 42 of digital memory 4 and control input 52 of block 2 of the profile display.

Operation of this device according to FIG. The video signal from the television camera is sampled and converted into digital form by a fast analog-to-digital converter 2 at the moments derived in the control circuit 8, based on the synchronization mixture, separated from the complete video signal in the synchronization separator 7. The digitized samples in the adder 3 are added to the corresponding sums of the values of the previous samples read from the digital memory 4 and the sums are written back to the digital memory 6. The control circuit 8 allows the resulting profile to be obtained from a predetermined number of television images. Data from digital memory £ whose organization is

- 4,258,411 diodes by the number of profiles to be stored and the number of points characterizing one profile are converted in the profile display block 5 into a binary signal which, when combined with the original video signal in the merge circuit 6, is guided by the defective material ·

In another embodiment of the device according to the invention in FIG. 3, the input terminal 1 of the device is connected to the signal input 101 of the sampling amplifier 10 and the input of the sync separator J and the second input 62 of the merge circuit 6. to the TV monitor. The output of the sampling amplifier JO is connected to the signal input 111 of the amplitude-time converter 11, the output of which is connected to the signal input 121 of the time-number converter 12, the output of which is connected to the data input 41 of digital memory 4. with digital input 122 of converter 12 time-number and digital input 131 of converter 13 number-time, the output of which is connected to the first input 61 of the combining circuit 6. The clock generator 14 is connected to the clock input 124 of the converter 12 time-number; on the other hand, to the clock input 133 of the 13 number-time converter. The output of the sync separator 2 is coupled to the input of the control circuit 8, the outputs of which are connected in series to the control input 102 of the sampling amplifier 10, to the control input 112 of the amplitude-time converter 11, it. input 42 of digital memory 8 ^and then to control input 132 of number-time converter 13.

The operation of this device according to FIG. 3 is as follows: The video signal supplied from the television camera to the input terminal 8 of the device is sampled at the moment of the column section by a material defect detected by a sampling amplifier 10 controlled by pulses from the control circuit 8. Instantaneous video signal samples are converted to pulse length in the 11-time converter, which in the 12-time converter is converted to a number that is also added to the eum of the previous samples read from the digital memory £ · The new sum is stored back into the digital memory £ · After the selected number of samples has been reached, further totals are not written to the digital memory £ ·

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The sum values are continuously displayed by means of the 13-to-time converter, which in the case of a bar profile represents the main part of the profile display block 5 (see Fig. 1). on the television monitor screen, a graph of the luminance profile in a column, that is to say, in a vertical section through a material defect, the frequency of the converter 12 time-number and converter J3, number-time is controlled by a 14-hour frequency generator. It consists of counters with a preset, which allows the time-number converter 12 to realize easily the sum of the previous value of the sum with the new value of the video signal sample.

A further use of the method and connection according to the invention lies in the possibility of its application in the objective assessment of television cameras, television monitor screens, setting of shadow correction and other similar activities.

Claims (4)

1. A method of determining the dimension of a spatial defect in the direction of radiation in a non-destructive material inspection by means of a television imaging chain, characterized in that in a section through the detected defect a video signal is generated from the video signal. the number of TV images and the resulting brightness profile and, when tilted by 90 °, is displayed graphically at the edge of the TV screen. Device for carrying out the method according to claim 1, characterized in that it comprises an analog-to-digital converter (2) and a digital memory (4) connected to a profile display block (5), the profile display block (5) being connected to a combining circuit (6) connected to the signal input (21) of the analog-to-digital converter (2). Device according to claim 2, characterized in that the analog-to-digital converter (2) is connected to a first input (31) of the adder (3) which is further connected to a digital memory (4) whose output (43) is connected to the second input (32) of the adder (3) and the profile display block (5), and the profile display block (5) is further connected to the first input (61) of the merge circuit (6), the analog-to-digital converter (2), the adder 3), the digital memory (4) and the profile display block (5) are connected to a common control circuit (8), which is preceded by a synchronization separator (7), connected simultaneously to the signal input (21) of the analogue digital converter (2) and a second input (62) of the merge circuit (6). 4. Device according to claim 2, characterized in that it is arranged from a sampling amplifier (10) which is connected to an amplitude-time converter (11) which is further connected to a signal input (121) of the converter (12) time-number. connected to a digital memory (4), the output of which (43) is connected both to the digital input (122) of the time-converter (12) and to the digital input (131) of the converter (13) number - time is -72S6 411 connected to the first input (61) of the merge circuit (6), wherein the sampling amplifier (10), the converter (11) amplitude-time, the converter (12) time-go, digital memory (4), and converter (13) number - the time is not connected to the common control circuit (8), which is preceded by a synchronization separator (7), connected simultaneously to the signal input (101) of the sampling amplifier (10) and to the second input (62) of the combining circuit (6), converter / 12 / time - number and converter / 13 / number - time are simultaneously connected to the generator / 14 / clock.