SU996928A1 - Electromagnetic checking device - Google Patents

Description

(54) DEVICE FOR ELECTROMAGNETIC CONTROL

The invention relates to non-destructive testing and can be used for electromagnetic: control of electrically conducting objects. A device for electromagnetic control is known, comprising a series-connected alternator, a differential electromagnetic converter, a compensator, a phase-sensitive rectifier and an indicator, and a phase switch connected between the output of the electromagnetic converter and the reference input of the phase-sensitive rectifier tl. The disadvantage of this device is low control reliability, which is due to the low sensitivity of the device to defects, since their effect can be suppressed by a phase-sensitive rectifier. The closest to the invention to the technical essence is a device and an electromagnetic control (a roll containing an alternating current generator, a working and exemplary electric magnetic transducers, each of which consists of an excitation winding connected to the output of the generator and coaxial with it two measuring windings, the main measuring windings have different diameters and are connected in series according to, additional measuring windings are installed with an axial clearance relative to the main are identical with them in geometric dimensions and are connected in series-counter, serially connected compensator, amplifier, phase-sensitive rectifier and indicator, resistor, series-connected second compensator, second amplifier, phase shifter and amplifier-limiter connected to the reference input of the phase-sensitive rectifier , the corresponding ends of the exciting windings, as well as the main and additional measuring windings are connected to the common bus; the inputs of the first compensator are connected according to with the outputs of the main measuring windings of the working and exemplary electromagnetic converters, and also with the output of the alternator, the inputs of the second compensator are connected respectively to the output of the additional measuring windings of the working electromagnetic

a transformer and an output, a generator, and the output of additional measuring windings of an exemplary converter are connected via a common bus resistor.

However, this device does not have the necessary reliability of the contol, which is also associated with the possible suppression of the effects of defects by a device that is sensitive to the device,

The purpose of the invention is to improve the reliability of the control.

The goal is achieved by the fact that a device for electromagnetic control, containing an alternator, an operating and exemplary electromagnetic transducer, each of which consists of a winding connected to the output of the generator, and two main and two additional measuring windings coaxial with it The measuring windings have different diameters and are connected in series-according; additional measuring windings are installed with an axial clearance relative to the main ,, identical with them in geometric dimensions and connected in series-opposite, serially connected compensator, amplifier and phase-sensitive rectifier, serially connected second compensator, second amplifier and amplifier-limiter connected to the reference input of the phase-sensitive rectifier, resistor and indicator, the corresponding ends of the exciting windings as well as the main and additional measuring windings are connected to a common bus, the inputs of the first compensator are connected respectively to the outputs of the main The main measuring windings of the working and model electromagnetic converters, as well as with the alternator output, the inputs of the second compensator are connected respectively to the output of the additional measuring windings of the working electromagnetic converter and the generator output, and the output of the additional measuring windings of the reference converter is connected to a common bus direct current amplifier connected between the output of the phase-sensitive rectifier and the indicator and a third amplifier connected in series, connected by an input to the output of a second compensator, an amplitude detector and a filter connected by an output to the control input of a controlled DC amplifier.

Figure 1 shows a block diagram of a device for electromagnetic control; Fig. 2 shows the waveforms of applied stresses, which clarify the operation of the device.

. The device for electromagnetic control contains an alternating current generator 1, a working electromagnetic converter 2, and an exemplary electromagnetic converter 3, which consists of an excitation winding 4 connected to the output of an alternator 1, and two main measuring windings 5 and 6 and two additional measuring windings 7 and 8, the main measuring windings 5 and b have different diameters and are connected in series-according, additional measuring windings 7 and 8 are installed with the axis void gap relative to the main ones, identical with them in geometrical dimensions and connected in series-counter, model electromagnetic converter 3 is identical to the working one and consists of exciting winding 9, main measuring windings 10 and 11 and additional measuring windings 12 and 13, serially connected compensator 14 and amplifier 15, the phase-sensitive rectifier 16, the controlled amplifier 17 of the alternating current and the indicator 18, the compensator 14 is connected by its inputs respectively to the outputs of the main measuring devices x windings 5 and b of a working electromagnetic converter 2 and main measuring windings 10 and 11 of an exemplary electromagnetic converter 3 connected in series to a second compensator 19, a second amplifier 20, a phase shifter 21 and a limiter amplifier 22 connected by an output to the reference input of a phase-sensitive rectifier 16, corresponding ends exciting windings 4 and 9, as well as the main and additional measuring windings 5,6, 10,11,7,8,12 and 13 are connected to a common bus, the output of the second compensator 19 through the third amplifier 23, the amplitude detector 24 and filter 25 are connected to the control input of amplifier 17, the input of the second compensator 19 is connected respectively to the output of additional measuring windings 7 and 8 of the working electromagnetic converter and to the output of alternating current generator 1 and the output of additional measuring windings 12 and 13 of exemplary electromagnetic Converter through the resistor 26 is connected to the common bus.

Claims (2)

1. Authors certificate of the USSR 458702, cl. G 01 N 27/90, 1975. 2. Authors certificate of the USSR 596874, cl. G 01 N 27/90, 1978 (prototype). 0.2 D.3 M Ke Hgf, one, W