SU676919A1 - Ferromagnetic article magnetizing device - Google Patents

Description

The invention relates to the field of non-destructive testing and can be used for the structuroscopy of ferromagnetic products using the method of magnetic noise.

A device for magnetizing ferromagnetic products is known in a structuroscopy, comprising a U-shaped electromagnet with a magnetic reversal winding fed from an alternating current source 1.

A disadvantage of the known device is that at sound frequencies, the magnetization reversal with increasing magnitude reversal current of a product of small mass begins to vibrate relative to the electromagnet tips and the indicator coil, which creates an interference signal that affects the accuracy and reliability of control.

The closest in technical essence to the invention is a device for magnetizing ferromagnetic products containing sources of alternating and constant voltages, a U-shaped magnetic conductor and windings placed on it connected to sources of alternating and constant voltages, respectively 2.

However, this device does not automatically maintain a well-defined (specified) relationship between the variable and constant fields, and hence the currents creating these fields, which in the case of // // - ::; // will cause the sample to vibrate relative to the magnetizing product, and at / I the sample will enter saturation and control will be impossible.

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

The goal is achieved by the fact that the source of constant voltage is made in the form of a series of switching resistance connected in series with the source of voltage and connected to it a rectifier and power amplifier, to the output of which one of the windings is connected.

The drawing shows a block diagram of a device for magnetizing ferromagnetic products; - ;.

The device contains a U-shaped magnetic circuit / with a reversal winding 2 and a biasing winding 5, specifying resistance 4, rectifier 5,

power amplifier 6. The impedance 4 is connected in series to the alternating voltage source circuit (not shown in the drawing) and is connected to the secondary winding 2. The rectifier input 5 is connected

with an impedance of 4, and an output

through the power amplifier 6 with a magnetic biasing winding.

The system works as follows.

The U-shaped magnetic core is placed on the surface of the product 7. The alternating current, the passage through the winding 2, creates a magnetization reversal product 7 and a magnetic field. At the same time, the voltage proportional to the alternating magnetizing field from the driver resistance 4 is fed to the input of the rectifier 5. The constant voltage after the rectifier is amplified by the power amplifier 6 and fed to the magnetic bias circuit 3. The constant current passing through the winding 3 creates the field that fixes product 7 on the U-shaped magitoprovod. During the magnetization reversal by a variable field, the parameters of the product are measured and read. The ratio between the magnetization reversal and the magnetizing field is given by the resistance and is automatically kept constant.

The proposed device will allow to expand the scope of application of overhead magnetizing devices in defectostructure, to control the quality of physicomechanical and physicochemical

characteristics of materials and products in various fields of testing and control equipment.

Claims (2)

1. Sisrovochnik Instruments for non-destructive control of materials and products, ed. V. V. Klyuev, M., “Machining, 1976, p. 6. 2. USSR author's certificate number 57745, cl. G 01 N 27/86, 1940.