SU1585864A1 - Electric machine magnetic circuit - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to improve the energy performance. The magnetic circuit of the electric machine contains teeth corrugated from the tape 1. Jumpers 2 connect the corrugations of the teeth. The ribs 3 of the jumpers 2 have a variable height and are oriented inside the groove. This allows for improved heat removal from the center of the groove. 1 il.

Description

The invention relates to electrical engineering and may find application in the manufacture of magnetic circuits of the tooth zones of the rotor or stator of rotating electrical machines of mechanical or conical 5 versions.

The aim of the invention is to improve the energy characteristics of an electric machine.

The drawing shows a corrugated magnetic circuit of an end electric machine, the interdental jumpers of which are made with ribs of variable height.

The magnetic core contains teeth 1, corrugated from the tape, connecting corrugations 15 of the teeth of the jumper 2 with ribs 3 of variable height facing in the same direction as the corrugations of the teeth.

In the proposed magnetic core, the corrugated tooth zone can be jointed with a twisted flat of a continuous ferromagnetic tape with a toroidal core, acting as a yoke, with a minimum clearance of 20. In this case, the corrugated tooth zone can adjoin the 25 yoke either with interdental jumpers (the grooves on the side of the working gap are open) or with the teeth (the grooves are closed). The articulation of the corrugated tooth zone with a separately executed yoke leads to the fact that most of the main magnetic flux of the machine is closed through the yoke.

An electric machine with the proposed magnetic circuit operates as follows.

The winding, laid in the grooves of the corrugated tooth zone of the stator, creates a magnetic flux closing through the air gap of the machine, corrugated teeth of the stator, twisted yoke adjacent to the tooth zone, and the rotor magnetic circuit. The magnetic flux of the stator, interacting with the currents of the rotor, brings the latter into rotation.

The possibility of articulating the proposed tooth zone with a separately performed yoke can significantly increase the induction in the gap of an electric machine compared to the prototype, bringing it closer to the level of induction in the working gaps of classic machines. The consequence of this is a significantly higher level of energy characteristics (cos φ, efficiency, torque on the shaft) of electric machines with the proposed magnetic circuit. At the same time, the use of electrical steel of the tooth zone inevitably increases.

Orientation of ribs of variable height into the groove allows improving heat removal from the central (most heat-loaded) part of the groove, which also improves the energy characteristics of electric machines with a corrugated tooth zone.

Claims (1)

Claim The magnetic circuit of an electric machine, comprising a tooth zone made of a continuous strip corrugated across its longitudinal axis, with teeth of constant height, connected by jumpers having ribs of variable height, with the fact that, with In order to improve energy characteristics, the ribs are turned in the same direction as the corrugations of the teeth,