SU1076824A1 - Ultrasonic flaw detector for controlling quality of joints - Google Patents

Abstract

ULTRASONIC DEFECTOR FOR CONTROL THE QUALITY OF CONNECTIONS, contents serially connected synchronizer, ultrasonic oscillator, searcher and amplifier, pulse gad forming unit, pulse maker, connected to the synchronizer and gating pulse shaping unit, a tool has been configured, and a tool has been configured, and a tool has been configured, and a tool is configured by a pulse generator, connected to the synchronizer, and the gating unit that forms a pulse generator. increase the reliability of the control, it is equipped with series-connected first coincidence circuit, the first trigger, the second coincidence circuit, the second the trigger, the output of which is connected to the registering device, the second inputs of the triggers and the input of the first coincidence circuit are connected to the output of the gate generating unit, the threshold device, the input of which is connected to the amplifier output, and the output connected to the second inputs of the coincidence circuit. (L

Description

one

a oo to 4 The invention relates to ultrasonic flaw detection and can be used in various areas of tire manufacturing when testing thin-walled welded joints, adhesives and other joints. Known ultrasonic flaw detector containing a probe probe and pulse generator connected in series, emitting and receiving transducers and an amplifier, as well as a selection pulse generator connected to the recorder and probe pulse generator Cl3. The disadvantage of this flaw detector is the poor pin reliability and impossibility of using it with automatic the transducer when the distance to the defect and the thickness of the product in the direction of the sound is the closest to An ultrasonic flaw detector for monitoring the quality of connections, containing a series-connected synchronizer, an ultra sound oscillator, and a booster and an amplifier, a strobe pulse shaping unit, a pulse shaper connected to the synchronizer and a strobe pulse shaping unit, and a recording device 2 The disadvantage of the known defect-proof pa is the low reliability of the control of the quality of thin-walled welded, Pah, and glue joints, especially when automated nnom control, since the change of the distance to fault requires rearrangement of a duration of the strobe pulses. The purpose of the invention is to increase the reliability of quality control of connections. The goal is achieved by the fact that the ultrasound: a defectoscope for controlling the quality of the connections, containing a series-connected synchronizer, an ultrasonic oscillator, a finder and an amplifier, a gating pulse shaping unit, a pulse shaper connected to the synchronizer and a gating pulse shaping unit, and a recording device are sequentially equipped connected by the first coincidence circuit, the first trigger, the second coincidence circuit, the second trigger, the output of which The second inputs of the triggers and the input of the first matching circuit are connected to the output of the gating pulse generation unit, the threshold device whose input is connected to the amplifier output, and the output connected to the second inputs of the matching circuit. Ultrasonic sonic flaw detector for monitoring the quality of connections contains a synchronizer 1, successively connected, an ultrasonic vibration generator 2, a searcher 3, usi The detector 4 and the threshold device 5, as well as the pulse generator 6 connected in series, the pulse pulse shaping unit 7, the first matching circuit 8, the first trigger 9, the second matching circuit 10, the second trigger II and the recording device 12. The ultrasonic flaw detector works as follows. The pulses from the ultrasonic oscillator 2 are sent to the searcher 3. The perceived ultrasonic vibrations perceived by the searcher 3 are amplified to the required level by the amplifier 4, and then fed to a nopoiOBoe device 5, which produces rectangular pulses with a level exceeding the trigger threshold. The pulse shaper 6 generates a delay pulse, the duration of which is chosen taking into account that with possible displacements of the pulses reflected from the product (not shown) and from the defect, their beginning would not be able to coincide with the driving pulse. The gating pulse forming unit 7 generates a strobe pulse, the beginning of which is determined by the end of the delay pulse, and the duration is chosen taking into account that, with possible displacements of reflected pulses, they do not leave the gate pulse zone. The gate pulse arrives at the first coincidence circuit 8, allowing passage of the surface pulse from the threshold device 5 to the first trigger 9, which is set to state 1, thereby allowing the next (defective) pulse from the threshold device 5 to pass through the second coincidence circuit 10 to the input the second trigger 11, which is prepared for operation by a gated pulse, and in the case of the presence of a pulse from a defect passing through the second coincidence circuit 10, produces a signal acting on the registering device at 12 "In the case of a quality connection, the impulse from the defect is absent, and the second trigger 11 will remain in the initial state O. The resetting of the flip-flops 9 and 11 to the initial state occurs on the falling edge of the strobe pulse.

310768244

The proposed ultrasonic defect allows its use in an autoscope to improve the control. Matizirovannyh devices control the quality of thin-walled connections and due to the mode of operation of the triggers.

Claims (1)

ULTRASONIC DEFECTOSCOPE FOR CONTROL OF QUALITY OF COMPOUNDS, comprising a synchronizer, an ultrasonic oscillation generator, a finder and amplifier, a strobe pulse forming unit, a pulse shaper connected to a synchronizer and a strobe forming unit, and a recording device, characterized in that in order to increase the reliability of control, it is equipped with series-connected first matching circuit, first trigger, second matching circuit, second trigger ohm, the output of which is connected to the recording device, the second inputs of the triggers and the input of the first coincidence circuit are connected to the output of the strobe pulse generating unit, a threshold device, the input of which is connected to the amplifier output, and the output is connected to the second inputs of the coincidence circuits, ι