SU612291A1 - Pulsed magnetization device - Google Patents

Description

(54) DEVICE DOLL PULSE MAGNETIZATION

Claims (3)

The invention relates to electrical engineering and can be used in devices for pulsed magnetized magnetic materials. Known devices for pulsed magnetization, using a capacitive energy storage {. However, such devices are cumbersome in their design and relatively expensive. In other devices for pulsed magnetization, an electromagnet is used with a serially connected tyrnstor connected to an alternating voltage network, with a shunt circuit connected in parallel with the electromagnet consisting of a serially connected resistor on the bottom, including an electronic trigger circuit THpHctopa, a driver of trigger pulses in signal stage 2. However, this device has several disadvantages in the single-shot mode, which are are as follows. The formflash triggering impulses of the device operate in continuous geyeratsnn mode, in particular, with a sufficiently long follow-up period (up to 2 s); when to the htor and possible one-time start. The signal cascade of the device contains an indicator light, in a flash of which it is necessary to choose the time between the triggering pulses and a brief press of a button, to skip one of the pulses to the switching thyristor, thereby starting the device once. The mode of operation considered is inconvenient when servicing the device. In addition, the impulse in loading occurs only after some time after pressing a button, 1. e. The device does not have any vain. Consequently, such a device is difficult to use in flow automated lines. It is also known a device for pulsed magnetization, comprising a switching unit including an electromagnet, a clamped diode and a resistor, a thyristor connected in series with an electromagnet, a synchronization unit and a starting pulse generator unit, consisting of a series-connected switch and a voltage divider on the resistors, triggered by a signal from the synchronization unit, and the signal to the thyristor control electrode comes from a voltage divider on resistors {3. This device is not provided with a one-time magnetization, which leads to a change in the conditions of magnetization from sample to sample and deterioration of reliability. The aim of the invention is to increase the reliability of operation by forming a single magnetizing pulse. This is achieved by having a device comprising a switching unit; an electromagnet, a shunted diode and a resistor, a thyristor connected in series with the electromagnet, a synchronization unit and a trigger pulse shaping unit consisting of a series-connected key and a voltage divider on the resistors, an alarm unit for installing the magnetized sample inserted, and in the block for forming triggering pulses there is a relay, a capacitor, a capacitor charge circuit consisting of a resistor and a diode, the charge circuit being connected to a capacitor m through the NC contact of the relay, a capacitor connected to the switching contact of the relay and the anode of the thyristor is connected to the normally open relay contact connected to the signal unit tion. The drawing shows a schematic diagram of the device. The device contains a synchronization unit G and a switching unit 2, consisting of a thyristor 3 and an electromagnet 4, which are connected in series to an alternating voltage network, and in parallel to an electromagnet 4 is connected a bypass chain consisting of series-connected resistors 5 and a diode 6 connected in reverse direction. The device also contains a block 7 triggering impulses H block 8 SIG of setting the position of the magnetized sample 8. Block 7 for bouncing pulses contains times | day & 1st codeset; 9, an iQ thyristor, a voltage divider on two resistors 11 and 12, charging a circuit from a series connection of the resistance resistor 13 and a diode 14 and a relay 15 with a switchable contact 16 to which the rae | For capacitor 9. Cond circuit under. It is connected to the breaker; contact of the relay, and the anode of the thyristor with closing relay contact. A divider is connected to resistors And and 2 and is connected to the cathode of the thyristor 10. The input of the unit 7 triggering pulses is connected to the output of the synchronization battery, so that with the synchronization unit a pulse is applied to the control electrode of the thyristor 10. From the resistor 12, the output is from {up to control th thy thyristor 3 blocks of commutation. An electrical relay 15 is connected to the output of the eignal unit 8 of the oscil {shi position of the magnetized sample. The device works in the following way. At the output of the block t is synchronization fori. Narrow current inrulities are co-ordinated, corresponding to the aczla of each positive half-period of the voltage of the alternating current network. 6 14 When a sample is introduced into the center of an electromagnet, a voltage arises at the output of the signaling unit 8, which includes the relay 15 of the unit 7 trigger pulses. When an electrical relay 15 is triggered, the discharge capacitor 9, charged through a chain of resistor 13 and diode 14, creates a working voltage on the thyristor 10 and at the first synchronizing pulse it discharges the bare capacitor through resistors 11-12, and starts the thyristor 3. synchronizing pulses the circuit does not work until the relay is triggered again. After the thyristor 3 is disconnected, at the end of the positive half-cycle, the current in the electromagnet, as an inductive load, closes on the circuit of diode 6 and resistor 5, as a result of which energy is dissipated in the solenoid. The process then repeats. The main advantage of a device that can create a techno-economic effect is the ability to easily turn on the proposed device into automatic lines for one-time pulse magnetization of samples by the flow method. Apparatus of the Invention The device for pulsed magnetization, comprising a switching unit, including an electromagnet, triggered by a diode and a resistor, a thyristor, a terminal But connected to an electromagnet, a power unit, and a trigger pulse generating unit, consisting of a series-connected key and a voltage divider, the key is triggered by the signal from the synchronization unit, and the signal to the thyristor control electrode is received from the voltage divider on the resistors, characterized in that in order to increase the reliability of operation by forming a single magnetizing pulse, a signaling unit for installing a magnetized sample was inserted into it, a key was made on the thyristor, and a relay was turned on in the block for generating trigger pulses; a capacitor, a capacitor charge circuit consisting of a resistor and a diode, the charge circuit being connected to the capacitor via the disconnecting contact of the relay, the capacitor connected to the switching contact of the relay, and the thyristor anode connected to the closing contact of the relay connected to the alarm unit. Sources of information taken into account in the examination: I. USSR Author's Certificate No. 427402, cl. H 01 F 13/00, 1974. 2. Uschakov I. I., Uschakov V. Ya. Obtaining magnetic field pulses directly from an alternating current network, an instrument and an experimental technique. 1972, No. 4, p. 203-205. 3.Shopen L.V. Contactless electrical devices of automatics M., “Energie, 1976, p. 399-405. I- Lj.