SU1037164A2 - Ultrasonic through-transmission immersion flaw detector - Google Patents

Abstract

ULTRASONIC SHADOW IMMER - I SION DEFECTOR by author. ST. USSR 932395. about that and with the aim of increasing the information content of the control, it is equipped with a two-channel defect recognition unit, each channel of which is made of series-connected amplitude-time discriminator, memory unit and analog key, The first inputs of amplitude-time discriminators are connected to the output of the amplifier, and the second inputs are connected to the output of the probe pulse generator, and a comparison circuit whose two inputs are connected to the first outputs of the analog switches, the output to the second input of the registrar. pa, and the second analog outputs are connected to the output of the second trigger.

Description

WITH

OG) 4

The invention relates to non-destructive testing by an ultrasonic method and can be used for flaw detection of sheets and plates in the metaplastic, engineering and other industries.

According to the main auth. No. 932395 is known for an ultrasonic shadow immersion flaw detector containing a series-connected probe pulse generator, emitting and receiving transducers and an amplifier, first and second amplitude-time discriminators, ne (the first inputs of which are connected to the amplifier and the second inputs to the probe pulse generator - owls and recorder, connected in series the first trigger, two inputs of which are connected to the outputs of the first and second amplitude-time discriminators, differentiating the circuit l, the OR circuit, the second trigger, the output of which is connected to the recorder input, the third amplitude-time discriminator, the first input of which is connected to the amplifier output, the second input - with the output of the probe pulse generator, and the third trigger connected between the third amplitude temporary discriminatory and scheme OR C13.

The disadvantage of this device is the impossibility of recognizing g defects, i.e. differentiation of their internal structure.

The purpose of the invention is to increase the information content of the control.

The goal is achieved by the fact that the ultrasonic shadow immersion flaw detector is equipped with a two-channel defect recognition unit, each channel of which is made of series-connected amplitude-time discriminator, memory unit and analog 1 key, the first inputs of amplitude-time discriminators are connected to the amplifier output, and the second inputs with the output of the probe pulse generator, and the comparison circuit, whose two inputs are connected to the first outputs of the analog switch, the output to the second input of the recorder a, and the second analog key outputs are connected to the output of the second trigger

The drawing shows a block diagram of an ultrasonic shadow impairment flaw detector.

Ultrasonic Shadow Defecto contains a series-connected generator 1 of probe pulses, transmitter 2 transmitter, receiver converter 3 and amplifier 4, first 5 and second 6 amplitude-time discriminators, the first inputs of which are connected to the output of amplifier 4, and the second inputs - with

the output of the generator 1 probe sound pulses, the recorder 7, the trigger 8, two inputs of which are connected to the outputs of the first. 5 and 6 second amplitude-time discriminators, differentiating circuit 9, scheme 10 OR, second trigger 11, third c1 temporal discriminator 12, the input of which is connected to the output of amplifier 4, the second input - with the output of generator 1 of probe pulses., And the third trigger 13, connected between the third amplitude-time discriminator 12 and the OR circuit. In addition, the flaw detector contains a two-channel defect recognition unit 14, each channel of which is made of serially connected amplitude-time discriminator 15 and 16, memory block 17 and 18, and an analog switch 19 and 20, the first inputs of amplitude-time discriminators 15 and 16 are connected to the output of the amplifier 4, and the second inputs - with the output of the generator 1 probe pulses, and the comparison circuit 21, two inputs of which are connected to the first outputs of the analog switches 19 and 20, and the output - to the second input of the recorder 7, the second outputs of the analog keys whose 19 and 20 are connected to the output of the second trigger 11.

Ultrasonic shadow immersion flaw detector works as follows.

From the output of generator 1, probing impulses come to converter emitters 2. If there is a product and defect simultaneously controlled, receiving transducer 3 receives the type of impulses that pass through the target object and the defect in it, and then they go to amplifier 4. Amplitude-time discriminators 5 and 6, tuned to a given sensitivity level, are extracted from all incoming signals to their input and required for further processing m and n pulses. If there is a defect in the monitored product, at least one of the preceding pulses m or n, the output of the corresponding discriminator 5 or 6 of the rectangular pulse does not occur (the presence of a defect in at least one of the transmitted pulses means that the defect present in the product weakened the amplitude of this signal in such a way that its value is less than the specified threshold of sensitivity). Therefore, trigger 8 does not work, which means that there will be no pulse at the output of trigger 11 (the Defect status is present). Before the start of each cycle, the trigger 11 is set to its original position. The registrar 7 will record the 5 defect in the product. At the same time, the amplitude-time discriminators 15 and 16 isolate the type and the pulses that have passed, KOToi je in blocks D. and 18 memories are converted into proportional levels of constant voltage supplied to the analog switches 19 and 20. Their second inputs are received The defect signal is from the output of the trigger 11, which is allowing for opening the keys 19 and 20 and passing the levels of the n-th and n-th signals to the inputs of the comparison circuit 21, the comparison circuit 21 identifies three situations: 1) m7 n, 2) t n, 3) t n, information about which in the form of corresponding impulses comes n and registrar 7 is additional to the information on the presence of a defect. In the event that a controlled item is present as well. defect n & tf amplitude bottom-time discriminators 5 and 6 carry out the required value. the formation in the form of rectangular impulses to the inputs of the trigger 8, the trigger 8 forms an impulse, the leading edge of which coincides with the arrival time, and the posterior front of the nth passed pulses. Through the differential circuit 9 and the circuit, this pulse triggers its back edge with trigger 11. The presence at its output. square differential prohibits the recording of a defect on the recorder 7. The same signal locks the analog keys 19–29 and stops the flow of information to the inputs of the comparison circuit 21. Defect recognition is not performed. In the absence of a monitored product, the amplitude of the transmitted signal will be large, which will trigger the amplitude-time discriminator 12, the impulse from the output of amplitude-time discriminator 12 triggers trigger 13, the impulse from trigger output 13 through circuit 10 OR trigger 11 The presence of a rectangular drop at its output prohibits the recording of a defect on the recorder 7 and the recognition of the defect is not performed. The use of a flaw detector makes it possible to increase the information content of the control by obtaining additional information about the nature of the defect.

Claims (1)

(54) (5 7) THE ULTRASONIC SHADOW IMMER- j SION DEFECTOSCOPE according to ed. St. USSR No. 932395, characterized In order to increase the information content of the control, it is equipped with a two-channel defect recognition unit, each channel of which is made of series-connected amplitude-time discriminator, memory block and analog key, the first inputs of the amplitude-time discriminators are connected to the amplifier output ^ and the second inputs are with the output of the probe pulse generator, and a comparison circuit, the two inputs of which are connected to the first outputs of the analog keys, the output - with the second input of the recorder, and the second outputs of the analog (. • lyuchey connected to the output of the second 'trigger. £