SU984075A1 - Vibration exciter electric motor - Google Patents

Description

The invention relates to electrical engineering, ei specifically to electric motors used to drive unbalanced directional vibration exciters, using Xox in construction and road works.

There are built-in unbalanced vibration exciter motors in which the stator cores, the potopa and the shaft are coaxial with respect to each other with a uniform air gap between the cylindrical surfaces of the cores, and unbalances C1 are fixed on the rotor shaft.

A disadvantage of such devices is the low reliability and short service life of bearings loaded with circulating forces from unbalanced rotor masses.

The closest to the invention in terms of technical density is an electric machine with a cylindrical rotor core located coaxially with respect to the shaft, in which to balance unsymmetrical bearing loads by

applying to the rotor oppositely the forces of a single-sided, magnetic attraction, the rotor axis is displaced relative to the stator bore with an uneven air gap between them with a stable arrangement in space regardless of the angular position of the rotor 2 J.

The device allows to increase the durability of undercuts only in those cases when the directions of force on them are unbounded in space, however, as applied to electric motors of exciters, bearings are exposed to high-frequency pulsed loads of high amplitude, which are affected by the geometrical composition of circulating forces from mass balances and motionless force in space of a one-sided magnetic attraction.

Claims (2)

The purpose of the invention is to increase the reliability of the motor of the vibration exciter by balancing the circulating forces acting on the bearings from the unbalanced masses of the rotor by the force of a unilateral magnetic attraction directed oppositely by the resultant unbalance forces and rotate in space, with the frequency of rotation of the rotor. To achieve this goal, in an electric motor containing a stator core, Coaxially with an internal bore, the rotor shaft is mounted on bearings with eccentric mass-debapans and the rotor core is located on the shaft, the latter is eccentric with a secondary protrusion on its external along / surface, oriented opposite to the debalans indicated. FIG. 1 shows an electric motor, a longitudinal section} in FIG. Section A-A in FIG. 1. In case 1, the stator core 2 of the electric motor with a winding is placed 3. Shaft 4 is mounted on bearings 5 coaxially with the internal bore of the stator core, and masses are unbalanced on its brackets 6. Placed on the shaft of the short-circuited rotor 7 is fitted with a shaft sector protrusion 8, as a result of which the air gap (fj between the cores in the protrusion area is smaller than the gap (frt on the opposite side of the rotor Due to the unevenness of the air gap during operation of the electric motor, a force of uniqueness occurs) of the magnetic field, a1 with respect to the stator and neodvizimo relative to the rotor, the direction of which in space at any moment of time is opposite to the resultant forces from / Iacc-debalans. Due to the balancing of the forces applied to the rotor, the radial loads on the bearings in the proposed device are reduced to a minimum, which ensures their high durability and reliability of operation. The useful disturbing force of the vibration exciter in this case is transmitted to the motor housing through an electromagnetic field, since the force of a one-sided magnetic attraction with respect to the stator is unbalanced. In a number of cases, it may be advisable to only partially balance the loads acting on the bearings. Claims of the Invention An electric motor of an exciter comprising a stator core coaxially with the internal bore of which the bearings have a rotor shaft with eccentric unbalances. and the core of the rotor located on the shaft, which is also distinguished by the fact that, in order to increase reliability by balancing the pressure sensor, the rotor core is eccentric with a sector protrusion on its exterior. surfaces oriented opposite to the indicated unbalances. Sources of information taken into account in the examination 1. N. Karpov. Light vibration track machines. All-Union Scientific Research Institute of Railway Transport. Issue 245. M., Transzheldorizdat, 1962, p. 157-159, fig. 6.1, a. 2. USSR author's certificate 683429, cl. H 02 K 1/06, 03/27/78.