SU1693687A1 - Rotor of electric machine - Google Patents

Abstract

The invention relates to electrical engineering. The aim of the invention is to increase the reliability of the rotor. The rotor of the electric machine consists of a barrel 1 with radial open grooves in which the field winding coils are placed. Each coil contains conductors 2 having a convex-concave shape. Under the wedge 3, a fixing plate 5 is placed, and at the bottom of the groove of the lining 6. The surfaces of the plates, pressed against the outermost conductors of the coils, are given a convex or concave shape corresponding to these conductors. to possible forces directed across the axis of the groove. 1 il.

Description

The invention relates to electrical engineering, in particular to synchronous tires with turbo engines cooled by gas.

The aim of the invention is to increase the reliability of the rotor.

The drawing shows a cross section of the rotor for one slot division.

The rotor of the electric machine consists of a barrel 1 with radial open grooves in which the field winding coils are placed. Each coil contains conductors 2 having a convex-concave shape. In the drawing, the convex side of the conductor faces in the direction of the mortise wedge 3. A variant of the device is also possible when the convex side of the conductors faces in the direction of the bottom of the groove. Insulating strips 4 are installed on the epoxy glue between the contiguous conductors. A fixing pad 5 is placed under the wedge, and a pad at the bottom of the groove

6. The surfaces of the plates, pressed against the outermost conductors of the coils, are convex or concave, corresponding to these conductors. Between the ribbed faces of the column-forming conductors and the walls of the teeth there are gaps for the passage of the cooling gas in the axial direction. In between installed spacers. In the slot wedges or in the heads of the teeth there are channels 8 for ejecting gas to the outside.

The presence of the wedge coils in the grooves prevents them from moving in the radial direction. Under this condition, the convex-concave shape of the conductors and the plates 5 and 6 ensures the mechanical stability of each conductor and the coil as a whole to the possible dynamic forces directed across the axis of the groove. The latter occur, in particular, during acceleration or deceleration of the rotor. Spacers 7 fix the symmetric position of the coil in

(L

WITH

Os

about

CJ

about

00

VI

groove, further increasing its mechanical stability. They are arranged with a mutual shift (chess order) so as not to cause an increase in the aerodynamic resistance in the ventilation ducts.

The gas jets pass between the walls of the coils and the teeth, and the heat is removed directly from the ribbed surfaces of the coil, which is uninsulated narrow faces of the conductors. As a result, the cooling efficiency of the winding is high. The required aerodynamic head is created by the action of axial fans located in the end parts of the rotor.

Thus, the device is characterized by high-performance cooling with reliable fastening of the coil conductors in the rotor groove.

Claims (1)

Claims of the invention A rotor of an electric machine comprising a barrel with radial grooves in which the field winding coils are made of bus conductors with insulating gaskets between them, a slot wedge, and upper and lower plates of insulating material. insulating struts installed between the side surfaces of the teeth and the coils, respectively, located under the wedges and at the bottom of the grooves, characterized in that, in order to increase the reliability of the rotor, the conductors have a convex-concave shape, while the surfaces of the upper and the lower plates, pressed against the extreme conductors of the coils, have a convex or concave shape corresponding to these conductors.