SU1453545A1 - Vibration electric motor - Google Patents

Abstract

The invention relates to electrical engineering, to electromagnetic vibrators, and can be used in various sectors of the industry to create angular oscillations of the working bodies. The goal is to increase energy performance and reduce material intensity with increasing amplitude of oscillations. Vibration is achieved by the fact that the device is made in the form of a full-wave system with a three-pole stator 3 with a shift between, two poles 120 (with one of the poles 4, the statr has a double width) and a three-pole asymmetrical with respect to the stator Cororem 6, which has one of the poles 8 with a shift towards narrow pole 4 of the stator 3 counterclockwise half the width of the pole, and FRIEND011 pole 8 with the same shift clockwise relative to the other narrow pole 42 of the stator- 3. 1 Il. SS S (L

Description

The invention relates to electrical engineering and can be used in drives to create alternating oscillations in various production mechanisms.

The chain of the invention is an improvement in energy performance and a decrease in material consumption with an increase in the amplitude of oscillations. ed

The drawing shows a diagram of an electric vibrodrive.

The vibro-electric motor contains a housing 2 riveted in frame 1 with a cylindrical stator 3 of sheet 15 ·: electrical steel with three j distinct poles 4-1 - 4-3, 'one of which has a double width, / and the stator poles are> symmetrical in circumference with a shift of 20; between axles 120 °. Ί phase windings connected to a star are wound around the poles! AH, BY, CZ, powered by a three-phase; AC networks, and the phase windings AX and BY, located at 25 narrow poles 4-1 and 4-2, have a direct winding direction and are fed; through rectifier elements 5-1 and

5-2, and the CZ winding of the wide pole 4-3 has the reverse direction of winding 39 and is connected directly to the network.

The vibrator armature b is mounted on the shaft 7 and connected to the stator 3 through bearings (not shown) ·, it has three poles 8-1 - 8-3 with a width approximately equal to the width of the narrow poles 4-1 and 4-2 of the stator 3, and located opposite the narrow poles 4-1 and

4-2 of the stator 3 pole of the armature 8-1 and dd 8-2 have a shift in relation to the corresponding pole of the stator by half the width of the pole in opposite directions.

On the shaft 7 of the vibrator with the help of a bobbin 9, a lever 10 is fixed with elastic ⁴ elements 11, which, in the absence of current in the stator windings AX, BY and C, leads the armature 6 to the neutral position (Fig. 1). The working body, depending on the requirements of the process! can be fixed both on the shaft 7 of the electric vibrodrive and on the lever · ¹⁰ · 55

Electric vibrator operates as follows.

The phase windings AX, BY and CZ are connected to a three-phase AC source. Due to the presence of rectifier elements 5-1 and 5-2, the current ί _A in the AH winding flows only at V d> V _c > 0 and, accordingly, the current 1 ₆ in the BY winding flows under the condition V _e > V _C > 0. The current in the winding CZ is i _c = ϊ _Α + + ί _β . The magnetic flux in the air gap between the stator pole 4-1 and the armature pole 8-1 <Р _ДС is created by currents i _A and i _c , and due to the fact that the position of the ends of the winding CZ is reversed, the currents created by the currents 1 _D and i _{c are} magnetic streams are added up. The magnetic flux in the air gap between the pole of the stator 4-2 and the pole of the armature 8-2 FVS is similarly generated by currents i ₈ and i _c . The currents 1 _d and i _e in the AH and BY windings pass through during 120 ° of one period, and the current i _e in the CZ winding passes through 240 ° (in the case of fully open rectifier elements). Under the influence of magnetic fluxes Ф _АС and in the gaps, attractive forces are created and the armature 6 is alternately attracted either towards the stator pole 4-1, then towards the stator pole 4-2, thereby making angular oscillations with the network frequency, and the change in the direction of oscillations occurs when value of current i ₀ in excess of x _d . During operation, the phase winding CZ provides magnetization and thereby increase the attractive force. When phase A or B is disconnected, the vibrator goes into single-cycle mode with the frequency of the mains, and the return to the neutral position occurs due to the action of elastic elements 11. When phase CZ breaks, the current does not flow through the windings of the vibrator and the oscillations cease.

Claims (1)

Claim A vibro-electric motor containing an armature and a three-phase stator with two valves, the output of one of which is connected to the first phase of the stator winding, the output of the same name to the second phase of the stator winding, the opposite conclusions of the valves are connected to two network terminals, and the third phase of the stator winding is connected to the third network terminal characterized in that, in order to improve energy performance and reduce material consumption with increasing vibration amplitude, the magnetic circuit is made in the form of an explicit pole system with a three-pole a stator with a shift between the poles of 120 °, one of the poles of the stator having a double width, and a three-pole armature asymmetrical with respect to the stator, in which one of the poles is shifted counterclockwise by half of the pole of the stator half the width of the pole and the second pole - with the same clockwise shift relative to the second narrow pole of the stator, and at the narrow poles of the stator there are windings pinned to the valves, and on the wide winding directly ed connected to the network terminal, reverse about in relation to the first winding.