CS228460B1 - High speed electric machine rotor - Google Patents

Abstract

A rotor of a high-speed electric machine with uniform axial preload, where its rotor bundle has a tilting shrink ring and an insert ring and is secured by a retaining ring or a snap ring. A spherical bearing surface is made on the inner diameter of the tilting shrink ring and on the outer diameter of the insert ring, or a conical bearing surface is made on the inner diameter of the tilting shrink ring and a spherical bearing surface is made on the outer diameter of the insert ring. The inner diameter of the tilting shrink ring and the inner diameter of the insert ring are larger than the diameter of the shaft.

Description

A rotor of a high-speed electric machine with uniform axial bias, where its rotor bundle has a tilting shrink ring and an intermediate ring and is secured by a snap ring or shrinks. A spherical bearing surface is provided on the inner diameter of the tilting clamping ring and an outer diameter of the intermediate ring, or on the inner diameter of the tilting clamping ring there is a conical bearing surface and on the outer diameter of the inserted ring a spherical bearing surface.

The inner diameter of the tiltable compression ring and the inner diameter of the intermediate ring are larger than the diameter of the shaft.

3

The invention relates to a rotor of a high-speed electric machine.

The rotors of electrical machines become very hot during operation and very often sag at speeds, causing both the rotor itself and the commutator eccentricity, both of which have an adverse effect on the machine operation.

The cause of this deflection is the occurrence of uneven axial forces in the rotor package, which are mainly influenced by the uneven force of the dynamo plates, their tininess.

Rotors of high-speed electric machines are produced by stacking individual dynamo plates onto the shaft, compressing in the rotor package and securing with tightening rings, and finally grinding the protruding ends of the shaft, or producing a bundle of dynamo plates pressed into the packet separately and on one or both tightening rings not perpendicular to The front of the bundle is re - turned to ensure that the packet is perpendicular to the shaft support or to the locking ring.

In the first method of manufacture, the uneven axial bias of the rotor after heating in the machine operation results in a bending of the shaft.

In the second method of manufacture, the shaft is not deflected by uniformly compressing the bundle in the packet. The disadvantage, however, is the complicated and expensive production of the entire rotor.

The above drawbacks are overcome by the invention which is based on a tiltable snap ring and an intermediate ring with a spherical contact surface or a tapered contact surface of a tiltable snap ring and a spherical contact surface of an intermediate ring.

The tiltable shrink ring has a larger internal diameter than the shaft to assume an inclined position against the shaft axis. The intermediate ring has an enlarged inner diameter to accommodate a perpendicular surface to the shaft axis and at an inclined position of the tilting clamping ring.

SUMMARY OF THE INVENTION The tilting clamping ring has the possibility to adopt an inclined position according to the bevel of the dynamo-sheet stack by moving the tilting clamping ring against the ring along the spherical surfaces so that the end face of the intermediate ring remains perpendicular to the shaft axis.

The figure shows a part of a rotor according to the invention. «

The dynamo plates 2 are stacked on the shaft 1 and inserted on the tilting ring 3 with a spherical or conical surface. An intermediate ring 4 with a spherical surface is pushed onto the shaft 1. The bundle of dynamo plates 2 is compressed over the intermediate ring 4 and secured in a conventional manner, for example by a snap ring or a choke 5.

The dynamo plates 2 can also be compressed only via the tilt ring 3 and the inserted ring 4 can be loosely placed on the tilt ring 3 and secured with the snap ring or shrink 5. However, this method is more demanding on the pressing device, since of the dynamo plates circumference is the same pressure even when tilting the tilting clamping ring 3.

Claims (4)

Rotor of a high-speed electric machine with uniform axial bias, characterized in that its rotor bundle has a tilting clamping ring (3) and an intermediate ring (4) and is secured by a circlip or shrinking (5). Rotor according to Claim 1, characterized in that a spherical bearing surface is provided on the inner diameter of the tilting clamping ring (3) and on the outer diameter of the intermediate ring (4j). VYNALEZU Rotor according to Claim 1, characterized in that a conical bearing surface is provided on the inner diameter of the tilting ring (3) and a spherical bearing surface is provided on the outer diameter of the intermediate ring (4). 4. A rotor as claimed in claim 1, wherein:. the inner diameter of the tilt ring (3) and the inner diameter of the intermediate step are larger than the diameter of the shaft (1). »