CS216002B1 - Method of heating of commutators of electric machines rotating by eddy currents - Google Patents

Abstract

The purpose of the invention is to accelerate the heating of commutators during their production and to prevent heat losses. The stated purpose is achieved by mounting the commutator in a space with a rotating magnetic field, preferably multi-pole, excited by a three-phase current with a frequency of 50 to 500 Hz. The rotating magnetic field is directed perpendicular to the axis of the lamellas. The intersection of the rotating magnetic field with the lamellas results in the induction of eddy currents in the lamellas, by which the lamellas are heated. The rotating magnetic field creates hysteresis losses in the magnetic parts, by which these parts are heated. The invention is preferably used in commutators. with a large cross-section of the lamellas and when heating individual commutators.

Description

The invention relates to a method of heating commutators of electric machines rotating by means of eddy currents.

The commutators of electrical machines must be heated several times during their production. Heating is carried out in furnaces heated by electric resistance heating elements. Heating the commutator to the required temperature is very tedious. The heat transfer to the commutator takes place only through the front face and the heated air. This prior heating method generates considerable heat losses, in particular when the commutators are inserted and removed from the furnace, as well as by radiation of heat from the furnace surface. When the commutators are removed, the heated furnace cools uselessly. All this means a great heat loss and thus a loss of electric energy.

Said shortcomings are eliminated by the method of heating the commutators according to the invention, which consists in fixing the commutator in a space with a rotating magnetic field, for example a multipole, excited three-phase current of 50 to 500 Hz, with the rotating magnetic field perpendicular to the longitudinal axis. The intersection of the rotating magnetic field by the lamellas results in eddy currents in the lamellas which heat the lamellas. The rotating magnetic field generates hysteresis losses in the magnetic parts of the commutator, which also heat them.

Heat generation directly in the commutator prevents heat loss at the furnace and accelerates the heating of the commutator.

The drawing shows an embodiment of the heating according to the invention.

The commutator 1 is mounted in a space with a rotating magnetic field 3, preferably a multipole excited electric three-phase current of 50 to 500 Hz, perpendicular to the longitudinal axis of the slats 2. By intersecting the rotating magnetic field with the slats 2, eddy currents are induced in the slats. 2 heat up. Due to the rotating magnetic oil, hysteresis losses occur in the magnetic parts, for example in the steel part 4 of the commutator 1, with which the steel part 4 is heated.

This method of heating commutators can be used mainly in commutators with a large cross-section of slats. It can also be used for heating individual commutators, when heating them in a furnace according to the prior art would generate a large consumption of electric energy and also for commutators with them. the hot manufacturing operations are carried out, such as pressing them, tightening screws and nuts, etc.

Claims (1)

Method for heating eddy current commutators of electrical machines, characterized in that the commutator (1) is mounted in a space with a rotating magnetic field (3), for example with a multipole excited three-phase electric current of 50 to 500 Hz perpendicular to the longitudinal axis of the slats (2) wherein the induced eddy currents heat up the slats (2) and heat the steel part (4) of the commutator (1) by hysteresis losses due to magnetic field (3)