SU1057844A1 - Device for electromagnetic checking of metal articles - Google Patents

Abstract

DEVICE FOR ELECTROMAGNETIC CONTROL OF METAL PRODUCTS, comprising a main frequency generator, an auxiliary frequency generator, a measuring channel connected to the main frequency generator, a measuring channel connected in series, an electromagnetic converter, a preamplifier, a multiplier, a filter and an indicator connected to the auxiliary frequency generator connected in series by a phase distributor and an auxiliary frequency generator connected in series by a fuser, a preamplifier, a multiplier, a filter and an indicator connected to the auxiliary frequency generator connected in series by a phase distributor and an auxiliary frequency generator connected in series by a fuser, a preamplifier, multiplier, filter and indicator voltage, the output of which is connected to the second input of the adder, and connected to the generator With the main and auxiliary frequency channels, the control voltage shaping channel, including a series-connected multiplier, filter and frequency divider, the output of which is connected to the second input of the measuring channel multiplier, is distinguished by the fact that, in order to improve accuracy and control, it is equipped with a compensator included in the measuring channel between the preamplifier and the multiplier, connected between the second input of the compensator and the fundamental frequency generator connected in series by a second phase rotation Teleconference and second voltage divider and connected in series vtorm vtorpu filter and a frequency divider, connected between the output of the multiplier channel forming voltage control and frequency reference input indicator.

Description

The invention relates to the nondestructive control of products from electrically conductive materials and can be used in the aviation and building industry. A device for electromagnetic control of metal products is known, which contains an electromagnetic converter excited by a complex frequency signal and two parallel measuring frequency channels connected to it, containing phase shifters, selective amplifiers and phase detectors 1. The drawback of the device is low measurement accuracy caused by non-identical characteristics of the channels . The closest in technical essence to the present invention is a device for electromagnetic control of metal products, comprising an auxiliary frequency generator, an auxiliary frequency generator connected to a fundamental frequency generator measuring channel including a series-connected adder, an electromagnetic converter, a preamplifier, a multiplier filter and an indicator connected to auxiliary frequency generator connected in series a phaser and voltage divider whose output is connected to the generators of the main and auxiliary frequency — a control voltage shaping channel that includes a serially connected multiplier, filter and frequency divider whose output is connected to the second multiplier input of the measuring channel 2. The disadvantage of the device is the effect the instability of the parameters of the multipliers on the control results, which leads to the appearance of false information about the presence of defects. The purpose of the invention is to improve the accuracy of the control. The goal is achieved by the fact that a device for electromagnet monitoring of metal products, containing a basic frequency generator, an auxiliary frequency generator, a measuring channel connected to the main frequency generator, a successively connected adder, an electromagnetic converter, a preamplifier, a multiplier, a filter and an indicator, connected to the auxiliary frequency generator connected in series a phase shifter and a voltage divider whose output is connected to the second input summat An ora, and a control frequency shaping channel connected to the main and auxiliary frequency generator, including a serially connected multiplier, filter and frequency divider whose output is connected to the second input of the multiplier of the measuring channel, is equipped with a compensator included in the measuring channel between the preamplifier and a multiplier connected between a second input of the compensator and a main frequency generator connected in series by a second phase shifter and a second voltage divider, as well I connected in series by a second filter and a second frequency divider connected between the output of the multiplier of the control voltage shaping channel and the reference input of the indicator,. The drawing shows a block device of the device for electromagnetic control of metal products. The device contains connected in series generator 1 of the main frequency, s, gmmator 2, electromagnetic converter 3, preamplifier 4, compensator 5, multiplier b, filter 7 and indicator 8 connected to the second input of the adder 2, connected in series generator 9 auxiliary frequency, phase shifter 10 and voltage divider 11 connected between the fundamental frequency generator 1 i and the second input of the compensator 5 serially connected second phase shifter 12 and second voltage divider 13 forming the voltage shaping channel control frequency serially connected multiplier 14 connected to the main generator and auxiliary frequency generator 9, filter 15 and frequency driver 16 connected to the second input of the multiplier b of the measuring channel, and connected between the output of the multiplier 14 and the reference input of the indicator 8 series-connected second filter 17 and second frequency divider 18. The device operates as follows: The signal of the main frequency f from generator 1 is fed to one of the inputs of adder 2. At its second input, the signal of the auxiliary frequency f2 comes from generator 9, the phase and amplitude of which can be adjusted by phase shifter 10 and divider 11 eg wives accordingly. The total signal arrives at the excitation MOTKIJ of the electromagnetic converter 3. The output signal of the converter 3 amplified by the preamplifier 4 is fed to one of the inputs of the compensator 5, the second input of which receives a signal from the main frequency generator 1, the amplitude and phase of which is controlled by the voltage divider 13 and the phase shifter 12 accordingly, the output signal from the compensator 5 is fed to the input of the multiplier b of the monitored signal, the second input of which receives the signal from the output of the frequency divider 16 (you od shaper voltage control frequency). Further transformation is carried out on one f-i + fo from the frequencies ..... y., .., obtained by multiplying two signals; the output signal of the compensator 5 and the signal of the control voltage shaper, which is obtained by multiplying the signals of the generators 1 and 9 in the multiplier 14, filtering the signal ffy (or f + f2) by the bandpass filter 15 and dividing the frequency by 2 divider 16. In the multiplier B of the monitored signal, the signals of different frequencies are converted to the same frequency and the residual unbalance of the sensor is compensated. For this purpose, the second input of the compensator 5 receives the signal of the fundamental frequency generator, the amplitude and phase of which are regulated by the divider 13 and the phaser 12, respectively, the frequency spectrum from the output of the multiplier b. enters the input of the filter 7, tuned to a frequency equal to -C, an output signal enters the indicator 8. On the display of the components Rg and 3 of the controlled signal from filter 7, a reference signal is formed in the device by a band-pass filter 17 connected to the output of the multiplier 14 and tuned to the frequency ft f2, respectively, and the frequency divider 18, whose input is connected to the output of the filter 17, the output signal of the frequency divider 18 enters the indicator 8, the detuning from interfering factors and compensation for the residual unbalance of the electromagnetic transform ovatep 3 is effected by the phase shifter 10, divider 11, voltage divider 12 and phase shifter 13 voltage. In the absence of a defect, a detuning from the interfering factor is performed and the imbalance signal is compensated, while there is no signal on the filter input 7. When a defect appears, an unbalance signal appears at the output of the electromagnetic transducer 3, and a signal from the defect appears at the output of the filter 7, the amplitude and phase of which depend on its parameters. This output signal is fed to the indicator 8 and is recorded by it. The proposed device allows high-precision testing of metal products in the aviation and engineering industries under conditions of influence on the measuring equipment of destabilizing factors.

Claims (1)

DEVICE FOR ELECTROMAGNETIC CONTROL OF METAL PRODUCTS, comprising a main frequency generator, an auxiliary frequency generator, a measuring channel connected to a main frequency generator, including a series-connected adder, an electromagnetic converter, a preamplifier, a multiplier, a filter and an indicator connected to a auxiliary frequency generator and a series-connected phase shifter and a voltage divider, the output of which is connected to the second input of the adder, and connected to the generators main and auxiliary frequency, the control voltage generation channel, including a multiplier, a filter and a frequency divider connected in series, the output of which is connected to the second input of the measuring channel multiplier, characterized in that, in order to increase the control accuracy, it is equipped with a compensator included in the measuring channel between the preamplifier and multiplied _{with the} resident, included between the second <g input of the compensator and the fundamental frequency generator serially connected second phase shifter 'and WTO th voltage divider and connected in series by the second filter and the second frequency divider, connected between the output of the multiplier forming the control channel frequency and voltage reference input indicator. SU. „, 1057844- ----- E 11 ----> 13 ------------- ¹ Ί 1 'h * 1 Ί ^! G - * * ⁷ h f G “| . m-u- —x— - 1 ⁹ gN ^No. ! - ** ^{n 5} - * ¹⁹ - ' ^s P' 17 --- i It ------------------ ---——