SU1081527A1 - Magnetic flaw detector - Google Patents

Abstract

A MAGNETIC DEFECTOR, containing a source of circular magnetization with a power transformer, in the primary circuit of which a block of power thyristors connected to a phase regulator is included, and a secondary circuit has a current-carrying unit, an adder, one input of which is connected through a converter to a feedback transformer installed in the power transformer circuit, and the current setter, characterized in that, in order to increase the reliability of the control, it is equipped with a comparison unit connected between the output of the adder and the phase regulator input, Locke reference voltage connected to the second input of the comparing unit and the generator, connected between the current setting device and the second input of the adder, and a feedback transformer installed in the power transformer primary circuit between one of its terminals and power output of the unit (A thyristor.

Description

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The invention relates to non-destructive methods for the control of products by a magnetic particle method and can be used to detect the discontinuity of a ferromagnetic material in all areas of engineering.

A magnetic flaw detector is known that contains a source of circular magnetization with a power transformer, the primary circuit of which includes a power thyristor unit, connected to a phase-shifter, and the secondary circuit is a current-carrying device, a control circuit for automatically setting a given magnetisation value, which includes an output relay, a reference voltage generator, a comparator, and an electronic device for determining the local magnetization of the component fl.

The disadvantage of this device is low reliability when testing parts by means of circular magnetization, due to the fact that it lacks automatic tracking of the magnetization mode during the control process.

The closest to the invention according to the technical nature is a magnetic flaw detector containing a source of circular magnetization with a power transformer, in the primary circuit of which is connected the power thyristors connected to the phase regulator, and in the secondary TURNING CONDUCTOR DI block, the adder, one input of which is connected via a converter with a feedback transformer installed in the transformer power circuit. The source of circular magnetization is made in the form of a battery of storage capacitors C2J.

A disadvantage of the known devices is the insufficient reliability of control of ferromagnetic parts, due to the lack of synchronization of the control pulses of the power thyristors with the mains voltage and the violation of the automatic maintenance of a given magnetization mode in the control process at various disturbances on the adjustable parameter.

The aim of the invention is to increase the reliability of control of ferromagnetic parts.

The goal is achieved by the fact that a magnetic flaw detector containing sources of circular magnetization with a BfcJM transformer, in the primary circuit of which a power thyristor unit is connected, connected to a phase regulator, and in the secondary circuit - a current-carrying unit, an adder, whose single input is connected via a converter

with a feedback transformer installed in the power transformer circuit and a current setter, equipped with a comparison unit connected between the output of the adder and the phasor5 input of the tuller, a reference voltage unit connected to the second input of the comparison unit, and a driver connected between the current setting unit and a second input of the adder, and a feedback transformer is installed in the primary circuit of the power transformer between one of its terminals and the output of the power thyristor unit. The drawing shows the block5 diagram of the proposed magnetic flaw detector.

The flaw detector contains a power transformer 1, in the primary circuit of which a transformer 2 is included

Q feedback and power block 3

thyristors, and in the secondary - current-carrying unit 4, for automatically maintaining a given magnetization mode, the series-connected current setting device 5, the driver

b pulses, an adder 7, another input of which is connected to the feedback transformer 2 via a converter 8, a comparison block 9 connected by another input to a block 10 of the reference

0 voltage and phase control 11 for control of power thyristor unit 3.

The flaw detector works as follows.

The item being monitored is clamped in the current supply unit 4, the current setpoint 5 sets the value of 0 magnetizing current determined for one type of part. From setpoint 5, a stabilized constant signal is fed to a driver 6, which forms a sequence of square pulses. Incoming

5 seconds of the former 6, the square pulses are added to the adder 7 with a negative feedback signal, which is generated at the output of the feedback transformer 2 at

Q passing AC

the primary circuit of the power transformer 1 and is converted by the converter 8 into a double frequency signal. Voltage difference. With adder 7,

C is proportional to the magnetizing current, compared in block 9 of comparison with a sinusoidal voltage of 50 Hz, supplied from block 10 of the reference voltage. From the output of the comparator block 9, a square-shaped signal, the width and position of which are determined by the magnitude and polarity of the voltage difference, goes to the phase-shifter 11, from which the control pulses shifted along

5 phase relative to the mains voltage at the corresponding angle, are fed to the power thyristor unit.

When the load impedance changes, which depends on the geometrical dimensions of the monitored part and the density of its contact with the current pickup unit 4 or on the voltage variation in the network, the impulse of the magnetizing current changes, and consequently, the negative feedback voltage also changes. As a result, the output signal from the adder 7 is equal to the voltage difference between the setpoint 5 signal and the negative feedback signal from the converter 8. A change in the voltage difference value at the output of the adder 7 leads to a change in the width and amplitude of the output rectangular pulses of the comparison unit 9 , when Koxopiaix arrives at the input of the phase regulator 11, the shift angle of the control pulses in relation to the mains voltage supplied to the power thyristor unit 3 changes accordingly.

0

The present invention allows to improve the performance of magnetic control of ferromagnetic parts and significantly improve the reliability of the magnetic particle method.

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Claims (1)

A MAGNETIC DEFECTOSCOPE containing a source of circular magnetization with a power transformer, the primary circuit of which includes a block of power thyristors connected to the phase regulator, and the secondary circuit contains a current supply unit, an adder, one input of which is connected through a converter with a feedback transformer installed in the power transformer circuit, and a current regulator, characterized in that, in order to increase the reliability of control, it is equipped with a comparison unit connected between the output of the adder and the input · phase regulator, block m of the reference voltage connected to the second input of the comparison unit and the shaper connected between the current setter and the second input of the adder, and a feedback transformer is installed in the primary circuit of the power transformer between one of its terminals' and the output of the power thyristor unit. SP yo m