SU873379A1 - Device for controlling electromagnetic vibrator - Google Patents

Description

(54) DEVICE FOR CONTROL

ELECTROMAGNETIC VIBRATOR The invention relates to electrical engineering, namely, devices for controlling vibration mechanisms and can be used in control systems for vibration machines. A device for controlling an electromechanical device is known, comprising an alternating current source, power thyristors connected in series in circuits of the forward and reverse coils and the driver of single pulses i. A disadvantage of this device is that it cannot generate sinusoidal mechanical oscillations, it does not work stably when the supply voltage changes, it does not both control the amplitude of the mechanical oscillations, which reduces its functionality. The closest in technical essence and the achieved result to the proposed is a device for controlling an electromechanical device containing two coils, a source of direct current, a driver, a single pulse connected to an alternating current source 2. The disadvantages of this device are low, efficiency and impossibility adjust the amplitude of mechanical vibrations, which reduces its functionality. The aim of the invention is to increase the efficiency of the device and expand its functionality. The goal is achieved by the fact that the device is equipped with a thyristor bridge, an annular driver, and the coils are made in two sections, the first half sections of which are connected parallel to the diagonal of the direct current of the thyristor bridge, the alternating current diagonal of which is connected in series to the alternating current source, and the annular driver is connected between the driver single pulse and thyristor bridge. Figure 1 is a schematic diagram of the device; 2 (a, b, c, d, d, e, g, h) are timing diagrams of voltage and currents. A device for controlling an electromagnetic vibrator consists of two-section coils of forward 1 and 2 and reverse 3 and 4 strokes. -The first half-section of the coil of the forward 1 and return 3; the soda is connected according to the paragliplate to the diagonal of the direct current of the thyristor bridge 5. The second half-section of the forward coil 2 and 4 reverse strokes are connected in series with a DC source 6. Thyristor bridge; 5 consists of a group of direct 7 and 8 thyristors and a reverse 9 and 10 stroke, the diagonal of alternating current of which is connected to an alternating current source 11. The thyristors are controlled by a frequency divider 12, consisting of an HG ring former and a single pulse former 14, The output of a single pulse former 14 is connected to the input of a ring former 13, the outputs of which are connected to the control electrodes of the bridge thyristors.

The device for controlling the electromagnetic vibrator operates as follows.

First, the direct current source b is turned on, and in the half sections of forward 2 and reverse 4 turns, the direct current passes (FIG. 2 c) h

When the supply voltage is supplied from the AC source (FIG. 2 a), the single pulse generator 14 receives a trigger pulse of the ring driver 13, so that it starts to work. After the ring driver starts, the single pulse driver stops working.

From the ring former, the generated pulses are applied to control electrodes of the forward stroke thyristor group 7 and 8 (Fig. 2c), and they are unlocked. After unlocking the thyristors 7 and 8, through the half-sections of the coils of forward 1 and reverse 3 moves, current flows (Fig. 2b). This current causes the magnetization of the forward travel magnetic circuit and demagnetization of the reverse flow magnetic circuit.

Magnetizing force of the magnetic circuit of the forward stroke (figure 2 g)

(iw) np w () w. Magnetizing force of the reverse magnetic circuit (Fig. 2 d)

(iw) oBp i-W4-i w (i-i) w, where w is the number of turns in the semi-sections of the coils (it is assumed that

 i W4 w); i, i l. corresponding currents in the half sections passing from the network. Therefore, the measles of a push-pull electromagnetic vibrator makes a straight course (Fig. 2 a).

So, in the second half-period of the sinusoidal voltage of the network, the current in the semi-sections of the direct 1 and reverse 3 coils drops to zero, and the thyristors 7 and 8 restore their valve properties.

At the beginning of the third half period of the sinusoidal voltage network from the ring shaper 13 are served

the generated pulses to control electrodes of the reverse thyristor group 9 and 10 (Fig. 2 g) and they are unlocked. After unlocking the thyristors 9 and 10, a current flows through the half sections of the forward 1 and reverse 3 coils (Fig. 2b). This current causes magnetization of the reverse magnetic circuit and demagnetization of the forward magnetic circuit.

Magnetizing force of the reverse magnetic circuit (Fig. 2 d)

(iw) og-p i-W4; + i w (i ± i) w. Inverter section force of the magnetic circuit of the forward stroke (figure 2 g)

(iw) r, p

- (i -i) w.

5 Therefore, measles push-pull electromagnetic vibrator makes a reverse course (figure 2 (e).

In the fourth half-period of the sinusoidal network voltage, the current in the semi0 sections of the coils of forward 1 and reverse 3 moves drops to zero, and thyristors 9 and 10 restore their valve properties.

In the next half period of the sinusoidal voltage network from the ring

5, the former 13 is supplied with the generated pulses to the control electrodes of the forward stroke thyristor group 7 and 8, and then the process is repeated.

This device allows you to adjust the amplitude of the mechanical oscillations, it is much higher efficiency, which distinguishes it from the known.

Claims (2)

Invention Formula A device for controlling an electromagnetic vibrator, comprising two coils, a source of direct current, 0 single pulse shaper connected to an alternating current source, characterized in,. that, in order to increase efficiency and expand functionality, it is equipped with a thyristor bridge, ring driver, and the coil is made in two sections, the first half sections of which are connected parallel to the diagonal of a constant current of the thyristor bridge, the diagonal of the alternating current of which is connected in series with the alternating current source current, and the annular primary is connected between a single pulse shaper and a thyristor bridge. Sources of information, 1prnyh into account in the examination 1. USSR author's certificate 655056, cl. H 02 R 7/62, 1975. 2. USSR author's certificate in application 2653757 / 24-07, cl. H 02 R 13/16, 1978.