SU1410113A1 - Apparatus for pulsed magnetization - Google Patents

Abstract

The invention relates to electrical engineering and can be used to magnetize the stators and rotors of electrical machines with permanent magnets. The aim of the invention is the expansion of the possibility of programmatically adjusting the parameters of the magnetizing field. A charging resistor 4, decoupling diodes 5.1-5.P, thyristors 2.1-2.p and windings 3.1-Z.p of the inductor are connected in series to one output of power supply 1. The ends of the inductor windings 51-S.n are combined and connected to the negative terminal of the power supply unit, to which one of the terminals of the capacitor bank section 6.1-6.p. is also connected. When the start button 14 is pressed, the primary winding of the pulse transformer 13 is connected to the power supply unit 1 and a single pulse of positive polarity is induced in the secondary winding, which through diode 12 and the program switch 7 is supplied to the control electrode of the thyristor 2.p. The thyristor is unlocked and the capacitor bp is discharged through the winding Z.p. In the inductor, a first magnetizing field is induced. When the discharge current through the thyristor 2.p is reached, the locking value of the latter closes, the reverse of the EMF of the winding Z.p through the back EMF diode 10. (n-1) and the primary winding of the transformer 9. (n-1) induces a pulse in its secondary winding positive polarity, which is via a communication diode. 8. (p-1) is applied to the control electrode of the subsequent thyristor and a second and subsequent pulsed fields are created in the inductor. 1 il. from the next

Description

The invention relates to electrical engineering and can be used to magnetize parts and assemblies, for example, stators and rotors of permanent magnet electric machines.

The purpose of the invention is to expand the possibility of programmatically adjusting the parameters of the magnetizing field, simplifying the key start block.

The drawing shows a circuit diagram of the device.

The device contains a power supply unit 1, which uses an adjustable DC source with two outputs, an electronic switch on 2.1-2.P thyristors, an inductor with windings 3.1-З.п. To one of the outputs of the power supply unit 1, the charging resistor 4 p is connected in series, their diodes are 5.1-5.p, para thyristors 2.1-2.P and p windings 3.1-Z.p inductor. The other ends of the windings 3.1-З.п are united and connected to the minus bus of the power supply unit 1, to which one of the terminals of the battery section of capacitors 6.1 is connected. 6.P, the other ends of which are connected respectively to the points of connection of the connecting diodes 5.1. -5.p and thyristors 2.1 - 2.p. To the control, its nth thyristor 2p electrode is connected to the nth fixed contact of the program switch 7 of the dosage of the number of pulses, and the control electrodes of the other thyristors 2.1 and 2.2 are connected to the corresponding switch and the fixed contacts of the program switch 7 of the dosage of the number of pulses and communication diodes 8.1-8 (p-1), the anodes of which are connected to the beginnings of the secondary windings of pulse transformers 9.1-9 (p-1), the ends of these windings are connected to the cathodes of the corresponding thyristors 2.1 and 2.2, the ends of the primary windings are connected us to points corresponding compound thyristors 2.P and 2.2 and 3.2 to the beginnings of the windings of the inductor and ZP. The primary windings of the pulse transformers 9.1-9 (p-1) are connected to the cathodes of diodes 10.1-10. (P-1) back EMF, the anodes of which are connected to the negative bus of power supply unit 1. Parallel to the winding 3.1 of the inductor, a shunt diode 11 is connected. A movable contact of the program switch 7 of the pulse number dosing is connected to the cathode of diode 12, the anode of which is connected to the beginning of the secondary winding of the pulse transformer 13, the end of which is connected to the minus bus of power supply 1 of power supply 1, to which connects the end of the primary winding of the pulse transformer 13, and the beginning of the primary winding is connected to one of the terminals of the start button 14, the other end of which is connected to the second output of the power supply 1. Section of the battery capacitors 6.1-6. PP connected to the negative

bus power unit 1 and, accordingly, to the thyristor anodes 2.1-2.p.

The device works as follows.

The power supply unit 1 is set to the magnitude of the required amplitude of the discharge current through the windings of the 3.1-W.p. inductor, and when it is turned on, the process of simultaneous charging of the capacitor banks through the charging resistor 4 and the decoupling diodes 5.1-5.p starts. The program switch 7 is set to the required number of magnetizing pulses in the range from 1 to n and the device is ready for operation. By briefly pressing the start button 14, the primary winding of the pulse transformer 13 is connected to the power supply unit 1, as a result of which a single positive-polarity pulse is induced in its secondary winding, for example, to the control electrode of the thyristor through diode 12 and the program switch 7 2.p, as a result of which the latter is unlocked and the energy accumulated in the corresponding capacitor bp, is discharged through the magnetizing coil Z.p and in the inductor it induces the first magnetizing ie the magnetic field. At the end of the discharge process, i.e. when reaching the discharge current through the thyristor 2.p, equal to the value of the lock, the latter is closed, the reverse of the EMF of the winding Z.p by means of the back EMF diode 10. (p-1) and the primary winding of the pulse transformer 9 (p-1) induces in its secondary A positive polarity voltage pulse is applied to the winding, which by means of the coupling diode 8 (p-1) is applied to the control electrode of the subsequent thyristor and, similarly to the sequence described above, creates a second and subsequent pulse fields in the inductor. Then, when the last but one thyristor 2.2 is unlocked, the energy stored in the corresponding battery capacitor is discharged through the winding 3.2 by means of the back EMF of the previous winding and an n-1 field is created in the inductor. At the same time, when the capacitors are discharged, the thyristor 2.2 is locked and the reverse EMF of the winding of the pulse transformer 9.1 by means of the back EMF diode 10.1 and the primary winding of the pulse transformer 9.1 induces in its secondary winding a positive polarity pulse that unlocks the last thyristor through the 8.1 diode 2.1 and due to the discharge of the capacitor of the battery through the first winding 3.1, the n-th field in the inductor is induced. The device stops working, but it is ready for the next cycle of operation by pressing the start button 14, since the 6.1-bp capacitor battery sections are already in the charged state.

Claims (1)

Invention Formula A device for pulsed magnetization containing a power supply unit, an electronic key, an electronic key triggering unit, an inductor, characterized in that, in order to expand the possibility of programmatically adjusting the parameters of the magnetizing field and simplifying the key triggering unit, it includes a shunting diode and a power unit including p-section capacitor bank, charging resistor and p dissolving diodes; an adjustable DC power source is used as the power supply unit; the electronic switch consists of five Ristors, an inductor - from p windings, an electronic key starting unit consists of a start button, a diode, a pulse transformer, a software switch for the dosage of the number of pulses, (n-1) pulse transformers, back EMF, (n-1) 1) communication diodes, each section of the capacitor bank of the power unit being connected via a series-connected charging resistor and co0 five 0 the corresponding decoupling diode to the first output of the power supply, and through the corresponding thyristor of the electronic key to the corresponding winding of the inductor, the bypass diode is connected in parallel to the first winding of the inductor, the second output of the power supply is connected to one of the outputs of the start button, the other output of which is connected to the primary the winding of a pulse transformer, the secondary winding of which through a diode is connected to a movable contact of a software switch for the dosage of the number of pulses, to fixed contacts where the control electrodes of the corresponding thyristors of the electronic key are connected and through the diodes of communication the secondary windings of the pulse transformers of the back EMF, the primary windings of which through the back EMF diodes are connected in parallel to the corresponding windings of the inductor, the control key of the 5th thyristor of the electronic key is connected directly to the corresponding stationary contact software switch dosage number of pulses.