SU1265934A1 - Two-step electromagnetic vibrator - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to vibration devices used in vibratory mixers, test vibrostands, and the like. The purpose of the invention is the extension of functionality by providing oscillations with a frequency below the frequency of the mains supply and an increase in efficiency. The electromagnetic vibrator contains two electromagnetically connected sides of ferromagnetic core 3, which is mounted on the moving system 4, and a power supply circuit including an alternating voltage source 5 to which two series-connected parallel resonant circuits 6 and 7, formed by windings 8 and 9 of electromagnets and connected to them parallel tuning capacitors 10 and 11.. When the vibrator operates, as the core approaches the poles of the electromagnet 2, a resonance of currents occurs in the resonant circuit 7, and a detuning of the resonance occurs in circuit 6. The current with S in the winding 8 begins to exceed the current in (L winding 9, which leads to an increase in the tractive force of the electromagnet 2 and the weakening of the tractive force of the electromagnet 1. In this way, stable low-frequency mechanical oscillations of the core occur around the equilibrium position with an increased amplitude, . 1 ill. O) ate; o 00 4

Description

The invention relates to electromagnetic vibration devices and can be used in vibro-agitators, test vibration stands, etc. '5' The aim of the invention is to expand the functionality by providing oscillations with a frequency below the frequency of the mains and increasing efficiency. .10

The drawing shows an electric circuit of a vibrator.

· The vibrator comprises two electromagnets 1 and 2, located on opposite sides of the ferromagnetic yako- ¹⁵ pn 3, which is fixed on the movable system 4 and the supply circuit comprising an AC voltage source 5, to which two series connected parallel PE ² θ circuit connected zonapsnyh 6 and 7, formed by the windings 8 and 9 of the electromagnets and connected to them in parallel tuning 'capacitors 10 and 11.

The vibrator works as follows ²⁵ times.

When the power source 5 is turned on, the armature 3 begins to move in the direction of one. From electromagnets, for example, electromagnet 1. The capacitors of the capacitors 30 are selected so that for some current gap between the armature 3 and the electromagnet 1 in the resonant circuit 6, current resonance occurs, and in the circuit 7 resonance detuning occurs. This leads to a redistribution of the voltage U of the power source between. circuit elements, and the tension in the loop and _r 6 becomes considerably larger voltage U in the loop 7, reaching the limit value of voltage U.

The current in winding 9 in this case is significantly higher than the current in winding 8.

Accordingly, the traction force developed by the electromagnet 2 exceeds the force developed by the electromagnet !, which leads to the movement of the armature in the opposite direction, i.e., toward the electromagnet 2. However, as the armature approaches the poles of the electromagnet 2 in resonance circuit 7, resonance currents, and resonance detuning occurs in circuit 6. The voltage U _t becomes greater than the voltage and _g , the current in the winding 8 begins to exceed the current in the winding 9, which leads to an increase in the traction force of the electromagnet 2 and weakening the traction force of the electromagnet 1. Accordingly, the direction of movement of the armature is reversed, i.e. towards the electromagnet 1.

Thus, stable low-frequency mechanical vibrations of the armature arise around the equilibrium position, and the frequency of these vibrations is determined mainly by the frequency of the natural vibrations of the mobile system, which extends the functionality of the vibrator. In addition, due to an increase in the amplitude of mechanical vibrations of the armature, a decrease in the frequency of these vibrations and while maintaining the power consumed from the network increases the efficiency of the vibrator.

Claims (1)

Claim A push-pull electromagnetic vibrator containing two electromagnets powered by an alternating voltage network, placed on opposite sides of a ferromagnetic armature fixed to a moving system, and two identical resonant circuits formed by the windings of each electromagnet and connected to them in parallel by tuning capacitors, characterized in that the purpose of expanding the functionality by providing oscillations with a frequency below the frequency of the mains supply and increasing efficiency, the resonant circuits are connected consistently.