SU1700609A1 - Device for demagnetizing and magnetizing articles of ferromagnetic materials - Google Patents

Abstract

The invention relates to electrical engineering, in particular to devices for demagnetization and magnetization, and is intended for demagnetization, magnetization and control of products made of ferromagnetic materials during their manufacture, for example, products used in the manufacture

Description

The invention relates to electrical engineering, in particular, devices for demagnetization and magnetization, and is intended for demagnetization, magnetization and control of products made of ferromagnetic materials during their production, for example, products used in the production of video recording equipment.

The aim of the invention is to increase the output power of the device and its versatility.

The drawing shows the functional electrical circuit of the device.

The device comprises a power source 1, an electromagnet 2, a capacitor 3 and a control unit 4 comprising a frequency converter 5 and a switching circuit connected in series between the power source and the parallel oscillator circuit formed by the capacitor 3 and the electromagnet winding 6 equipped with a control circuit 7. To increase the output power of the device and provide a highly uniform magnetizing and demagnetizing field in the same working gap, the device is equipped with a magnetic circuit with movable pole pieces, wrapped in a winding with a large number of turns 8-10, and the switching circuit contains switch 11 of operation mode with circuit 12 control and two keys 13 and 14 of two-way conduction, connected in opposite order in series. To provide the magnetizing mode, the additional capacitor 15 through the switch 1 and the control circuit 16 is connected to the winding 6 of the electromagnet, and both of its terminals are connected to the terminals 17 of the power supply source 1, the terminals 18 of which are connected to the corresponding pins of keys 13 and 14. The keys 13 and 14 can be made in the form of diode-thyristor keys.

Switch. 11 operating modes can be made in the form of a mechanical or electromechanical switch with contacts, designed for the maximum amount of current in the electromagnet winding. Control circuits 7 and 16 can be made in the form of current control devices in the electromagnet winding or sensors of devices that follow the level of magnetization and

0 demagnetization An adjustable autotransformer can be used to produce a variable-voltage alternating voltage at power supply 1, and a high-voltage rectifier connected to an autotransformer can be used to obtain the controlled voltage of a different current, required for magnetization.

In one embodiment of the design of the proposed device, the magnetic conductor with pole pieces is made of steel grade ST 20895, has a cross section of 11X11 cm, is equipped with a winding with a number of turns of 2 pcs. X 1250, a wire with a diameter of 1.88 mm. In this case, the device provides in the working gap 4 mm the intensity of the magnetizing field up to 1.9 T and the intensity of the demagnetizing field up to 0.6 T at a frequency of demagnetization of 1 - 2 Hz when the device is supplied with a voltage of 220 V, 50 Hz.

Q A device for demagnetization and magnetization of products made of ferromagnetic materials works as follows. Before switching on the device, a product made of ferromagnetic material is placed in the working gap between the pole terminals of 9 and 10, in a special mandrel made of durable insulating material (for example, textolite).

In the demagnetize mode using the switch 11, the terminals of the keys 13 and 14 are connected to terminals 18, and the second terminal

The electromagnet winding 6 is connected to the capacitor 3. When a bipolar signal of the required frequency arrives from block 5 at the control inputs of keys 13 and 14, they are alternately unlocked and the oscillating circuit is connected through the control element of one of the keys and the other key diode to terminals 18 of power supply 1 that allows the energy to be supplied to the circuit to compensate for losses in it and to maintain the current with symmetrical half-waves with the frequency of bipolar signals, as a result of which powerful windings are formed using winding 6 pulses of a demagnetizing floor. The amplitude of the alternating magnetic field is determined by adjusting the voltage supplied from the terminals 18, first this voltage increases and then gradually decreases, which can be done manually or automatically in block 1. The demagnetization process and end can be controlled using control circuit 7 or an indicator, for example, an ammeter. At the end of demagnetization, the mandrel with the product is removed from the working gap, the supply and control voltage from the keys 13 and 14 is removed, and the second terminal of the winding 6 is disconnected from the capacitor 3 by means of the switch 11,

In the magnetizing mode, the second terminal of the winding 6 is connected via a switch 11 to a terminal of a capacitor 15, to which an adjustable DC voltage is applied from the terminals 17 of the power supply 1. The process of current flow in the winding 6 becomes aperiodic, and the magnetic field in the working gap is magnetized. The magnetization process is controlled by the control circuit 16, and in the simplest case, for example, by an ammeter.

Claims (1)

Invention Formula Device for demagnetizing and magnetizing products from ferromagnetic materials containing a power source, an electromagnet, a capacitor and a control unit including a frequency converter and a switching circuit connected in series between the source power supply and parallel oscillatory circuit formed by a capacitor and an electromagnet winding, equipped with a control circuit, characterized in that, in order to increase the output power of the device and its versatility, it is equipped 5 with a second control circuit, an additional capacitor, a magnetic core with a working gap formed by movable pole pieces with an electromagnet winding installed near them, the switching circuit in the control unit contains a mode switch with a control circuit, as well as two keys of double-sided conductivity connected counter-sequentially, the capacitor is connected via g therefore between the keys of the same name, the point of connection of the capacitor to the first key is connected via the first control circuit to one terminal of the electromagnet winding, another terminal of the winding using the mode switch is connected to the connection point of the capacitor with the second switch or through an additional capacitor and the second control circuit to the first winding terminal, both terminals of the additional capacitor are connected to the source voltage terminals 5 power supplies, the AC voltage terminals of which, one directly and the other through an operation mode switch, are connected to the terminals of the first and second keys that are not connected to the capacitor.