SU926533A1 - Device for welded joint flaw classification in radiation inspection - Google Patents

Description

(B) DEVICE FOR CLASSIFICATION OF THE DEFECTIVENESS OF WELDED JOINTS UNDER RADIATION CONTROL

Claims (2)

The invention relates to the control of materials and products, and more specifically to the radiation monitoring of welded pipe joints. The closest to the proposed technical essence and the achieved effect is a device for classifying defectiveness of welded joints, during radiation monitoring, containing a reference voltage block and serially connected detector and comparison circuit, the second input of which is connected to the output of the voltage reference block, and recording unit 1., Device deficiency - the lack of the ability to automatically classify defects, due to the fact that the device measures the amplitude of the radiation sensor, no measures the duration and their ratio (difference), which does not allow to automatically produce the classification. The purpose of the invention is to automate the classification of defects. To achieve this goal, the device is equipped with amplitude-frequency and frequency duration converters, the inputs of which are connected to the output of the comparison circuit, and a frequency comparison circuit whose output is connected to the recording unit and two inputs, respectively, to the outputs of the converters amplitude frequency and duration-frequency. In addition, in order to increase accuracy, the duration-frequency converter is made in the form of a generator of rectangular pulses and a series-connected circuit for selecting the duration of the defect signal and the NAND logic element, the second input of which is connected to the output of the square pulse generator. The drawing shows the block diagram of the device. A device for classifying defectiveness of welded joints in radiation monitoring contains a radiation detector 1, the output of which is connected to the first input of level comparison circuit 2, to the second input of which the reference voltage is supplied and, the output of level comparison circuit 2 is connected in parallel to the transducer inputs 3 amplitude-frequency and a circuit for selecting the duration of a defect signal, the output of which is connected to the first input of the logical element 5 NAND, whose second input is connected to the output of a rectangular impulse generator all The output of element 5 is NOT connected to the second 1 input of the frequency comparison circuit 7, the first input of which is connected to the output of the converter 3 amplitude-hour of the current. The generator 6 of rectangular pulses and a series-connected circuit 4 for selecting the duration of the signal of the defect and the logical element 5 AND-NOT form a duration-frequency converter. The output of the frequency comparison circuit 7 is connected to the input of the recording unit 8. The device operates as follows. The ionizing radiation, the passage through the monitored material, enters the radiation detector 1, at the output of which an electrical signal appears, the amplitude and duration of which is proportional to the geometric dimensions of the defect. In scheme 2 of the level comparison, the signal coming from the output of detector 1 is compared with the value of the reference voltage UE to compensate for the thickness of the material being monitored. From the output of level comparison circuit 2, a signal proportional to the magnitude of the defect is fed to converter 3 and circuit A. in the transducer, amplitude-frequency and transducer duration-frequency amplitude and signal duration are converted to the same dimension (frequency fo and fj). The values of ffl and fn then go to frequency comparison circuit 7, in which they are compared. When comparing, the operation fcp is performed, and if f f, then fcp has the sign (+), and with fp f, the difference frequency has the sign (-). The sign (+) and {-) judge the spatial location of the defect and its orientation along the axis of the non-destructive testing. And the value itself / fcp / characterizes the type (character) of the defect. The combined characteristics of fcp and (+) characterize the potential or actual danger of a defect, which are recorded by the recording unit 8. The proposed device for classifying the defectiveness of welded joints during radiation monitoring allows the defects to be automatically classified. 1 Claims of the invention. . 1. A device for classifying defectiveness of welded joints during radiation monitoring, comprising a reference voltage block and a series-connected detector and comparison circuit, the second input of which is connected to the output of the reference voltage block, and a recording block, characterized in that to automate the classification of defects It is equipped with amplitude-frequency and duration-frequency converters, the inputs of which are connected to the output of the comparison circuit, and a frequency comparison circuit, the output of which is connected to the input registering its block, and two inputs respectively - to the outputs of the transducers amplitude-frequency and duration-frequency. 2. The device according to claim 1, characterized in that, in order to increase accuracy, the duration-frequency converter is designed as a generator of rectangular pulses and a series-connected circuit for selecting the duration of the defect signal and the NAND gate, the second input of which is connected to the output square pulse generator. Sources, information taken into account during the examination 1. Valevich M.I. et al. Use of a semiconductor detector for automating radiometric monitoring of welded connections. - Automatic welding, No. 12, 1978, p.66-67 (prototype).