SU1704178A1 - Device for magnetizing and demagnetizing permanent magnets - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to the automation of the production processes of magnetization of permanent magnets to the required magnitude of induction. The purpose of the invention is to simplify the design of the device. The device contains an electromagnet 1. an adjustable source of direct current 2 connected to an electromagnet 1 through the lower stages of a switch, an adjustable source 3 of alternating electromotive voltage and a capacitor 4 connected in series with it connected to an electromagnet through an upper stage of switch 5, the measuring converter 6. New in the device is that as a regulator of an alternating current in the winding a source of a variable electromotive force is applied, connected in demagnetization mode to the winding through a capacitor, the capacitance second, with the winding, constitutes a resonant circuit. 1 il. yo

Description

The invention relates to electrical engineering, in particular to the automation of production processes of magnetization of permanent magnets to the required magnitude of induction. >

The purpose of the invention is to simplify the design of the device.

The drawing shows a diagram of the device.

The device includes a single-winding electromagnet 1. regulated source 2 of direct current, adjustable source 3 of variable · EMF. a capacitor 4. connected in series with it 4. on-off switch 5 and measuring transducer 6. Source 2 can be connected to electromagnet 1 in direct or reverse polarity depending on the position of switch 5, and source 3 with capacitor 4 can be connected to electromagnet 20 in magnet 1 only in the lower the position of switch 5 corresponding to the reverse polarity of source 2.

The device operates as follows. 25

In the magnetization mode, in the upper position of the switch indicated in FIG. DC source 2 is connected to the electromagnet with direct polarity and is set to the maximum current value. 30 the source of the variable ODS 3 is disconnected from the electromagnet.

In demagnetization mode, switch 5 is moved to the lower position, while source 2 is turned to the electromagnet with reverse polarity and is set to the bias current value. The source 3 of the variable EMF is connected to the electromagnet 1 through the upper stage of the switch 5 and causes an alternating current in it. The total value of the direct current and the amplitude of the alternating current during demagnetization is always less than the magnetizing current, therefore, the winding of the electromagnet 1, designed for the magnetization current, is suitable for 45 operation in the demagnetization mode. The capacitance C of the capacitor 4 is selected as follows. to compensate for the inductance of the electromagnet, i.e. provide a mode close to resonance at a frequency of the variable EMF.

Using the measuring transducer 6, the value of the magnetic parameter is monitored during demagnetization.

When magnetizing barium ferrite magnets with a thickness of up to 15 mm and an area of 10 to 10 cm ^{2, the} calculated value of the capacitance is 5-6 μF. the quality factor of the coil is up to

5. i.e. with EMF E - 220 V, the voltage across the capacitor does not exceed 1500 V.

The advantage of the device is the absence of mutual influence of sources. . The capacitor does not pass the direct current of the source 2 and eliminates the shunting of the electromagnet winding with the low output resistance of source 3. while the high output resistance of the source 2 prevents the reduction of alternating current through the electromagnet winding.

Claims (1)

SUMMARY OF THE INVENTION A device for magnetizing and demagnetizing permanent magnets, comprising an electromagnet including a winding and a charged magnetic circuit, DC and AC current regulators in a winding, and an adjustable current source, a measuring transducer, and a two-position switch are used as a DC current regulator in the winding. characterized in that. which, in order to simplify the design of the device. 35, a capacitor is additionally introduced, an adjustable source of variable EMF is used as an AC current regulator in the winding, and the on-off switch is made with the possibility of connecting only one regulated current source of one polarity to the winding in one position, and in another position a regulated source connected in parallel current of a different polarity and a series-connected capacitor and a source of peemy emf.