SU1405099A1 - A.c. two-cycle electromagnetic vibrator - Google Patents

Description

ate

Ltd

The invention relates to electromagnetic vibrators and can be used in vibration mixers, vibration tables, vibration test stands, and the like.

The aim of the invention is to increase the efficiency.

The drawing shows the electrical circuit of the vibrator.

The vibrator contains two electromagnets 1 and 2, located on opposite sides of the ferromagnetic core 3, which is fixed to the moving system 4, and their supply circuit, including the voltage source 5 and the main windings 6 and 7 of the electromagnets, which are connected to it in parallel through series-connected capacitors 8 and 9. Each electromagnet contains additional windings 10 and 11, which are connected respectively in parallel to capacitors 8 and 9, connected to the main windings 7 and 6.

The vibrator works as follows.

When the source 5 is switched on, the measles 3 begins to move in the direction of the electromagnet, for example 1. The capacitor capacitance is chosen in such a way that a detuning of the resonant state occurs in the power supply of the taut electromagnet 1, which takes place at a certain current gap between core 3 and electromagnet 1. However, due to transients, the current in the winding of this electromagnet does not decrease immediately, but with some delay in time. By virtue of this, electromagnet 1 continues to attract measles 3, but with a constantly decreasing force. At the same time in the circuit of the electromagnet 2 is tuning to the resonance and, therefore, the current in its winding begins to increase. This leads to an increase in the tractive force of the electromagnet 2, which begins to exceed the force developed by the electromagnet 1, and is directed oppositely after. the next.

. . In connection with this, measles 3 begins to move, in the direction of electromagnet 2, as the core moves in the electric circuit.

,

YU

15 20 25

30 Q,

35

0

the thromagnet 2 causes a detuning of the resonance state, its pulling force decreases, and the pulling force of the electromagnet 1 (due to the occurrence of resonance in its power supply circuit) increases. This leads to a decrease in the direction of movement of the core in the direction of the electromagnet 1.

Thus, periodic low-frequency oscillations of the core 3 occur due to the combined force action of electromagnets 1. and 2, and the frequency of these oscillations is determined mainly by the frequency of the own oscillations of the mechanical suspension system.

Thus, when the core moves in the direction of, for example, an electromagnet T, a detuning of the voltage resonance in its supply circuit occurs, which leads to a decrease in the current in ke 6. At the same time, the inductance of the additional winding 11 changes, so that for a given value and The capacitance of the capacitor 8 in this parallel circuit causes a resonance of currents, this leads to an even greater decrease in the current in the winding 6 of the electromagnet 1, and therefore to a significant decrease in its pulling force.

In this case, the thrust force developed by the electromagnet 2 remains significant in magnitude.

Similarly, when the core moves toward the electromagnet 2 due to the occurrence of current resonance in a parallel circuit consisting of an additional winding 10 and a capacitor 9, its pulling force significantly decreases.

Thus, due to the simultaneous use of two resonant effects, namely detuning (tuning) of the voltage resonance in the power supply circuits of the main windings and tuning (detuning) the resonance of currents in circuits containing additional windings, it is possible to significantly reduce the tractive force of the counter electromagnet to increase efficiency vibrator and the power of mechanical vibrations of the core.

Claims (1)

TWO-STROKE ELECTROMAGNETIC AC VIBRATOR, containing two electromagnets with two windings located on opposite sides of a ferromagnetic arm mounted on a moving system, and two identical resonant circuits formed by one of the windings of each electromagnet and connected to it in parallel by a capacitor, different by the fact that, in order to increase the efficiency Dr. opposing electromagnet.