RO122985B1 - Oscillating vibromotor - Google Patents

Abstract

The invention relates to an oscillating vibromotor. According to the invention, the oscillating vibromotor consists of two stators, each consisting of a mono-coil type winding (1 and 1') and a sheet-iron pack (2 and 2'), in the magnetic field obtained in the air gap, as a result of supplying the windings (1 and 1') from a source of alternating current, a mobile armature displacing axially, said armature consisting of an axle (3), integral with a cylindrical core (4), having fastened, at one of the extremities, a driving piece (6) with elastic lamellas, which imports a rotation motion to a rotor (7) fastened, by means of a rotoric axle (8) and a fixed socket (9), on a support (15) on which there is also fastened the previously presented statoric assembly.

Description

The invention relates to an oscillating vibrator with alternative rectilinear motion, with a cylindrical air gap, fed at industrial frequency.

For the purpose of making an electric motor with an alternative motion, a solution is known (Marinescu, M., Electric motor with an alternative rectilinear motion, patent RO 47165), which comprises a stator with apparent poles, executed from a sheet package similar to rotary machines, inside which there is an armature that moves transversely on the plane of the magnetic sheets. The solution described has the disadvantage that the stator shape is relatively complicated, which implies difficulties in installing stator windings, as well as difficulties in making the sheets for said stator.

The technical problem that the invention solves is the easy installation of the stator windings.

The oscillating vibrator removes the disadvantages shown by the fact that it is made up of a stator assembly, composed of two asynchronous motor stators with a single-coil winding, located at a certain distance between them and where between the two stators can slide a normal rotor with cage winding. . If the assembly of the two stator windings is fed through a system of two diodes D1 and D2, so that a winding of the first stator is fed through a half-alternation, and the winding of the second stator is fed by the winding of the second stator, then the rotor moves between the two stators with a frequency equal to half the frequency of the AC power supply, executing a linear motion in the direction of the rotor axis.

The advantages of the invention are:

- relatively simple stator shape;

- easy installation of stator windings;

- simple making of stator linens.

The following is an example of an embodiment of the invention, in connection with FIG. 1 ... 3, which represents:

FIG. 1, the electrical principle diagram of the engine;

FIG. 2, a longitudinal section of the assembly;

FIG. 3, the diagram of the phases of movement of the blades.

The oscillating vibrator, according to the invention, consists mainly of two motorized stators with shielded poles, consisting of a single coil type winding 1 and Γ and a package of sheets 2 and 2 '. In the electromagnetic field, obtained in the cylindrical air gap from the supply from an AC source of industrial frequency of the windings, a movable reinforcement, composed of an axis 3 integral with a cylindrical core with a winding in the cage, moves axially. 3 of the movable reinforcement slides on two 5 and 5 'bearings, fixed on the tole packages of the statues. On one of the ends of the shaft is rigidly fixed an actuator with elastic blades 6, which prints a rotational movement to a rotor 7, fixed by means of a rotor shaft 8 and a fixed base 9. The stator assembly, to which the stator windings are positioned , by means of two spacers 10, at a certain distance between them, is fixed by means of two threaded rods 11 and two spacers 12, on a base 13, rigidly positioned, by means of two screws 14, on a support 15 The rotor 7 is attached to the support 15.

The oscillating vibrator, fed into alternating current, so that a half-period of current follows an interrupting half-period, and having a movable organ a magnetic core, transforms the alternative (vibration) motion of the armature, which is under the influence of the magnetic field produced in the stator windings of two asynchronous motor stators, located

EN 122985 Β1 at a certain distance between them, in continuous movement of a rotor, by means of the 1-action piece, provided with 4-5 elastic blades, made of metal or plastic. In the linear motion of the actuator, the elastic blades act by rubbing on the 3 rotor, the rotational movement of the rotor being influenced both by the frictional forces between the elastic blades and the rotor, as well as by its high inertia. The movement of the elastic blades takes place after a oriented cycle, which comprises two phases: extension and withdrawal, the frictional forces appear both in the extension phase and in the withdrawal phase, fig. 3. The rotational direction of the rotor 7 is given according to the arc direction of the elastic blades.

Claims (5)

1 Claims 3 1. Oscillating vibromotor, characterized in that it comprises a stator consisting of two magnetic cores of shielded pole motor stators, which are 5 disposed with a single-coil type winding (1 and Γ) and a package of sheets (2 and 2 '), a movable reinforcement composed of an axis (3) integral with a cylindrical core (4), which moves 7 in the electromagnetic field, obtained in the air gap from the power supply from an alternating current source of the windings, the ends of the axis (3) sliding on two bearings (5 and 5 ') fixed on 9 the packages of sheets, and on one of the ends of the shaft being fixed an actuator with elastic ribs (6), which prints a rotational movement of a rotor (7) fixed by means of an 11 rotor axis (8) and of a fixed base (9), the stator assembly having the stator windings positioned, by means of two threaded rods (11) and two spacers (12), on a base 13 (13) rigidly positioned, by means of two screws (14), on a support (15) from which the rotor (7) is fixed. The vibrator according to claim 1, characterized in that the actuator (6) is provided with 4-5 elastic blades, made of metal or plastic.