SU789741A1 - Apparatus for signal processing to ultrasonic defectoscope - Google Patents

Description

The invention relates to non-destructive testing by the ultrasonic method and can be used to automatically detect defects during welding.

A device for automatic quality control of the ends of multilayer ⁵ pipes is known, comprising an amplitude discriminator, a threshold stage, a coincidence circuit, and a welding unit [1].

However, the device is not sufficiently protected ^{, 0 is} protected from interference during welding.

The closest to the invention in technical essence and the achieved result is a device for processing a signal to an ultrasonic flaw detector, ¹⁵ containing an amplitude selector connected in series, an anti-coincidence circuit and an actuator ^ a threshold stage connected in series, the input of which is connected to the amplitude selector input, and a delay unit whose output is connected to the second input of the anti-coincidence circuit [2].

The disadvantage of this device is its low noise immunity at low amplitudes of the input signal, since the amplifier is saturated with noise, which leads to disruption of the device.

The purpose of the invention is to increase the noise immunity of the device.

This goal is achieved by the fact that the device is equipped with a logarithmic amplifier and a peak detector connected in series, the output of which is connected to the inputs of the amplitude selector and threshold stage.

In addition, the device is equipped with an _e- synchro- nizer, the output of which is connected to the inputs of the anti-coincidence circuit and the delay unit, the first input of the synchronizer is designed to be connected to a P “ ^, ° -generating network, and the second to control contacts; welding machine.

The drawing shows a block diagram of a device.

The device contains a series-connected * logarithm of the ^logic ' ^I ' - “ ^{and the} amplifier

1, peak detector · 2> amplitude selector 3, anti-coincidence circuit 4 and actuator 5, as well as a threshold stage 6 connected in series, the input of which is connected to the inputs of peak detector 2 and amplitude selector 3, and a delay unit 7, the output of which is connected to the second input circuit 4 anti-coincidence. A synchronizer 8 is connected to the inputs of the anti-coincidence circuit 4 and the delay unit 7, the first input of which is used to connect to the supply network (not shown in the drawing), and the second input to the control contacts of the welding machine (not shown in the drawing).

The device operates as follows.

In the initial state, before starting welding, the standard of the welded part is set on the welding machine. If there is no welding current, the zone of unacceptable defects is measured and set.

Informative and interference signals from the output of the flaw detector (not shown in the drawing) are fed to the input of the logarithmic amplifier 1. The signal from the output of the logarithmic amplifier is fed to the input of peak detector 2 and its output produces a constant voltage level proportional to the amplitude of the defect. From the output of the peak detector, the voltage is supplied to the inputs of the amplitude selector 3 and threshold stage 6. The amplitude selector 3 compares the input voltage with a given voltage of the defect zone. If the voltage of the signal exceeds a predetermined level, then at the output of the amplitude selector a signal is generated that goes to the anti-coincidence circuit 4. If the voltage is below a predetermined level, then there is no signal at the output of the amplitude selector 3.

In order to protect against periodic interference, such as network, the mains voltage is supplied to one input of the synchronizer 8, and the control contacts of the welding machine are connected to the other. At the moment of exposure, a positive pulse is generated at the input of the synchronizer of the negative half-wave of the mains voltage, which arrives at the inputs of the anti-coincidence circuit 4 and the delay unit 7.

In the case when the welded part has an acceptable defect, a normalized voltage level is supplied to one input of the coincidence circuit, and a control pulse from the synchronizer output to the other, while the actuator does not work due to the absence of a signal at the output of the anti-coincidence circuit 4. If the part to be welded has a Y1 defect, there is no signal at the output of the amplitude selector. When a pulse arrives from the output of the synchronizer 8 at the input of the delay unit 7, a pulse is generated at its output with a short duration and delayed relative to the leading edge of the control pulse, which is fed to the input of the anti-coincidence circuit 4 and is allocated at its output. When this triggers the actuator 5,

Thus, at the output of the anti-coincidence circuit 4, an impulse is emitted in the case of an unacceptable defect, and when there is an allowable defect, it is absent.

The proposed device allows to increase the noise immunity of the device.

Claims (2)

1, peak detector; the amplitude selector 3, the circuit of 4 interoperability and the actuator 5, are also serially connected threshold cascade 6, the input of which is connected to the inputs of the peak detector 2 and the amplitude selector 3, and the delay unit 7, the output of which is connected to the second input of the circuit 4 of anti-matching. A synchizer 8 is connected to the inputs of the anti-coincidence circuit 4 and the delay unit 7, the first input of which serves to connect to the mains supply. (not shown in the drawing) and the second input to the control contacts of the welding machine {not shown in the drawing). The device works as follows. In the initial state, before the start of welding on the welding machine, the standard of the welded part is set. In the absence of welding current, measurement and installation of the zone of non-permissible defects is performed. Informative signals and signals from the output of the flaw detector (not shown) are fed to the input of logarithmic amplifier 1. The signal from the output of the logarithmic amplifier is fed to the input of peak detector 2 and a constant voltage level proportional to the amplitude of the defect is obtained at its output. From the output of the peak detector, the voltage arrives at the inputs of the amplitude selector 3 and the threshold stage 6. The amplitude selector 3 compares the input voltage with the specified voltage of the defect zone. If the signal voltage exceeds a predetermined level, then at the output of the amplitude selector, a signal arriving at the anti-coincidence circuit 4 is output. If the voltage is below a predetermined level, then there is no signal at the output of the amplitude selector 3. In order to protect against periodic noise, for example, the mains voltage is applied to one input of the synchronizer 8, and the control contacts of the welding machine are connected to the other. At the moment of influence on the synchronizer input of the negative half-wave of the network voltage, a positive pulse is generated, which is fed to the inputs of the anti-coincidence circuit 4 and the delay unit 7. In the case when the part to be welded has a permissible defect, one input of the coincidence circuit receives a normalized voltage level, and another control pulse from the syncator output, while the additional mechanism does not work due to the absence of a signal at the anti-coincidence circuit 4. If the part to be welded is inadmissible; defect, at the output of the amplitude selector signal is absent. When a pulse arrives from the output of the synchronizer 8 to the input of the delay unit 7, a pulse with a short duration, delayed relative to the leading edge of the control pulse, which enters the input of the anti-coincidence circuit 4 and is output at its output, is generated at its code. In this case, the actuator 5 is activated. Thus, at the output of the anti-coincidence circuit 4, an impulse is released in case of an unacceptable defect, and it is absent at an acceptable defect. The proposed device allows to increase the noise immunity of the device. Claim 1. A device for processing a signal to an ultrasonic flaw detector containing a series-connected amplitude selector, an anti-coincidence circuit and an executing mechanism connected in series with a threshold stage, input i of which is connected to the input of the amplitude selector, and a delay unit whose output is connected - to the second input of the anti-coincidence circuit. characterized in that, in order to increase the noise immunity, it is equipped with serially connected logarithmic amplifier and a peak detector, the code of which is connected to the inputs of the amplitude selector and the threshold stage. 2. Device pop. 1, characterized in that it is provided with a synchronizer, the output of which is connected to the inputs of the anti-coincidence circuit and the delay unit, the first input of the synchronizer is intended to be connected to the mains supply, and the second input to the control contacts of the welding machine. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2553509/28, cl. Q01 N 29/04, 1977. 2. AJBTopcKoe certificate of the USSR O 563626, cl. GO1 N 29/04, 1975 prototype).