SU696365A1 - Device for quality control of ferromagnetic articles and meterials at heat treatment - Google Patents

Description

from the synchronizer 9 connected to the multichannel system, each channel of which is made of a differentiating chain 10 connected in series, a fadron type generator 11, a lean chain differential 12 and a generator of 13 strobe pulses.

Each channel also contains a comparison unit 14, the inputs of which are connected to the outputs of a controlled generator of rectangular pulses and an oscillographic unit 8, and the output of the comparison unit 14 of each channel is connected to the input of the actuator 15.

The device works as follows.

From the generator-1 sinusoidal oscillations, the voltage of the selected hour, the currents through the emitter follower, 2 and the power amplifier 3 are fed to the exciting windings of the inductive converters 4 and 5 and the ferrovarometers 6 and 7. The tested and reference products are installed in the corresponding inductive converters 4 and 5 When the structure and mechanical properties of the two products are different, the output of the inductive transducers is a signal, which, after amplification in the oscillographic unit 8, will be represented as an oscillogram on the screen ektronnoluchevogo indicator characterizing the magnetic and electrical properties of the article.

Simultaneously with the emitter follower 2, the voltage is applied to the controlled generator of direct pulse signals.

The synchronizer 9, which is included in the control of the mute generator of square-wave pulses, converts a sinusoidal signal into square-wave pulses, which after differential-spreading by a string 10 start a generator 11 of a firopropic type. At the output of this generator, a negative rectangular impulse is generated, controlled by the PS of time, which, after differentiation by chain 12, is converted into a pointed impulse. Last Starts the strobe pulse generator 13, which supplies a rectangular pulse to the input of the comparison unit 14 and to the oscillographic unit 8.

On the screen of the electron-beam indicator, the position of the strobe-pulse is indicated by a luminous point. The temporal position of the strobe pulse indicates the selected phase of the waveform period on which the amplitude of the signal is evaluated and recorded.

If the tested product differs in any controlled parameter from the reference one, then the signal unbalance of the inductive converters comes from the oscilloscope unit 8 to the input of the comparison unit 14. At the moment of arrival of the unbalance signal, a rectangular pulse appears in the output of the comparator unit, which is proportional in amplitude to the instantaneous value of the input sinusoidal unbalance signal under study. If the instantaneous value of the sinusoidal unbalance signal of the selected phase and frequency reaches a predetermined level, then the resulting output of block 14

comparisons of rectangular pulses will include the executive body 15.

Claims (2)

Invention Formula Quality control device 5 heat treatment of ferromagnetic parts and materials containing a series-connected sinusoidal oscillation generator, an emitter follower, a power amplifier, a parallel circuit system of inductive converters and ferrovarometers, and an oscillographic unit, with the aim of increasing the performance and dignity of the control, it is equipped with square-wave generator, switched on between the emitter follower and the oscilloscope unit, and the comparison unit, the input which are connected to the outputs of the controllable oscillator and oscillographic unit, and the output is connected to the process control to the actuating body. 2. The device according to claim 1, that it is controlled by the fact that the controlled generator is made of series-connected synchronizer and multichannel systems, each channel of which is made of series-connected differentiating chain, fictional type generator, differentiating chain and generator strobe pulses, Sources of information. taken into account during the examination 1. Christmas S.M. Electromagnetic flaw detection methods. Sat: Modern methods of controlling materials without destruction. M., Mash0 Guise, 1961, p. 194-196 (prototype).