SU932381A1 - Magnetic flaw detector - Google Patents

Description

The invention relates to the flaw detection of ferromagnetic materials by the magnetic particle inspection method and can be used when leveling discontinuities on the surface of products in all areas of mechanical engineering.

A magnetic flaw detector is known, comprising a power step-down transformer, a unit for selecting the type of magnetizing current included in the secondary circuit of the transformer, the primary circuit of which includes a magnetizing current control device consisting of a magnetic amplifier, an autotransformer and a magnetizing current control system, a unit; demagnetization and power supply l.

The lack of a flaw detector is that its circuit does not reliably carry out magnetization and demagnetization of small parts at small values of current.

The closest in technical terms to the present invention is a magnetic flaw detector containing a magnetizing unit, a power step-down transformer, in the primary circuit of which a device is included

circulating magnetization current control, consisting of a series-connected power block of controlled mercury rectifiers and a phase-impulse control unit, connected to the secondary circuit of a step-down transformer, a magnetizing current type selection unit and magnetizing-type immersing unit 2J.

The lack of a flaw detector is the low reliability of magnetization of fine parts at low currents and demagnetization of these parts, where a smooth reduction of the current to zero is required.

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The purpose of the invention is to increase the reliability of control at low magnetizing currents.

This goal is achieved by the fact that a magnetic flaw detector containing a magnetizing unit, a power step-down transformer, in the primary circuit of which a device for controlling a circulating magnetizing current is included, consisting of successively connected power unit of controlled rectifiers and a unit for pulse-phase control, is limited. to the secondary circuit of a step-down transformer

30 magnetizing current and magnetizing unit, equipped with a device for automatically changing the duration of magnetizing pulses and a unit for counting and controlling the number of magnetizing pulses, and the power control unit of the rectifiers made of controlled thyristors, the input of the unit, the counting and controlling the number of magnetizing pulses , and the output is connected to the input of a phase-impulse control unit, the other two inputs of which are connected to the output of the automatic change device for a long time. ti magnetizing pulses, a third output is connected to the power unit actuated rectifiers.

The device for automatically changing the duration of the magnetizing pulses consists of series-connected voltage switching units connected by the input to the network, a block of the threshold value of the signal, and a unit for setting the magnetising current.

The drawing shows a block diagram of a magnetic flaw detector.

The flaw detector contains a power step-down transformer 1, the secondary circuit of which includes a block 2 for selecting the type of magnetizing current, the device 3 for controlling the current of the circular magnetization consisting of a series-connected power block 4 of the e / IXX rectifier-thyristors circuit in the primary circuit of the power transformer 1 and block 5 of phase-impulse control.

The device 6 for automatically changing the duration of the magnetizing pulses consists of a voltage switching unit 7 connected in series, a signal threshold value unit 8 and a magnetizing current setting unit 9. The unit 10 for counting and controlling the number of pulses is turned on by the input to the network, and the output is connected to unit 5 of phase-impulse control. The magnetizing unit I is connected with one input to the current switch 12, and the other to the unit 2 for selecting the type of magnetizing current, the input 12 of the switch is connected with the power supply unit 13 of the longitudinal magnetization circuit included in the network.

The flaw detector works as follows. The controlled part 14 is installed in the magnetizing unit 11 and secured with a clamping mechanism. The voltage from the 380/220 V mains through the voltage switching unit 7 is supplied to the device 3 for controlling the current of the circular magnetization. Depending on the type of controlled part using block 9

The magnetisation current setting knob sets the limit for variation and control of the current. With this, from the block 8, the threshold value of the signal and the block 7 for switching the voltage to the device 3 for controlling the circulating magnetization current are supplied to the corresponding voltage, for example, by switching the voltage from 220 to 380 volts. Switching the voltage to 220 V provides a deeper magnetization of the parts being monitored, since at the same magnitude of the magnetizing current the pulse duration at a voltage of 220 V will be longer than at a voltage of 380 V.

The unit 10 for counting and controlling the amount of magnetizing pulses is set in advance for the time required to skip a predetermined number of magnetizing and / Ipyls (half-periods).

The voltage from the device for controlling the current of the circular magnetization is supplied to the primary winding of the power step-down transformer 1. From the secondary winding of the power step-down transformer 1 through the unit 2, the selection of the type of magnetizing current is fed to the magnetizing unit 11. The unit 2 selects the type of magnetizing current (single-cycle, one of the cyclic magnetically active unit (unit) is selected. half-wave rectifier and contactor / shunt this rectifier

The magnitude of the magnetizing current is regulated by means of a block 9 of a magnet magnitude current of 3, which consists of a set of adjustable resistances for adjusting the magnitude of the signal supplied to the block 5 of phase-impulse control.

Longitudinal magnetization of products is carried out with the help of electromagnets placed on movable heads of a magnetizing unit.

The electromagnets of the magnetizing unit 11 are fed with rectified current from the power supply unit 13 of the longitudinal magnetization circuit. When magnetized, the test article 14 is treated with a magnetic suspension and, based on the distribution of the ferromagnetic powder, the suitability of the part is judged.

The products are demagnetized in the same way as the longitudinal magnetization, but additionally the switch 12 is turned on, which periodically changes the polarity Hc1 of the magnetisation current while the magnetisation current slowly decreases from maximum to zero.

The proposed magnetic flaw detector allows inspection of parts of various configurations in

factory conditions, and the reliability of the battery is increased by 30-40% compared with the known defectoscopes.

Formula Invention

Claims (2)

1. Magnetic flaw detector containing a magnetizing unit, a power step-down transformer, in the primary circuit of which is included a circulating magnetization current control device, consisting of a series-connected power unit of controlled rectifiers and a phase-pulse control unit, included in the secondary circuit of the step-down transformer magnetizing current and magnetizing unit, characterized in that, in order to increase the reliability of the control, it is equipped with an automatic modified device long elnosti magnetizing pulses and the reference unit and controlling the amount of magnetizing pulses, and the power unit actuated rectifiers made of thyristors actuated, - 180 S Oh oh oh the input of the counting unit and the control of the number of magnetizing pulses is connected to the power source, and the output is connected to the input of the phase-impulse control unit, the other two inputs of which are connected to the output of the device for automatically varying the duration of the magnetizing pulses, the third output of which is connected to the power unit of the controlled rectifiers. o 2. The flaw detector according to claim 1, wherein the automatic change device — the duration of the magnetizing pulses — consists of 5 connected voltage switching units connected by the input to the network, a signal threshold value unit, and a magnetisation current setting unit. Sources of information taken into account in the examination 1. Authors certificate of the USSR. No. 164699, cl. G 01 N 27/86, 1964. 2. Instructions for operation of the UMDE-2500 universal magnetic flaw detector. NIAT, 1967 (prototype).