CS257630B1 - Device for damping cage's contact surfaces stabilization with two-pole synchronous motors - Google Patents

Abstract

The solution is to create a reliable solution and a structurally simple device for stabilizing contact surfaces by damping cages for two-pole synchronous motors. This is achieved by having a cylindrical contact surfaces on both sides of the rotor are provided at least one groove in which it is located metal non-magnetic material insert.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a device for stabilizing contact surfaces of a damping cage in two-pole synchronous power motors powered by semiconductor frequency converters abutting on each side of a rotor a non-magnetic bandage of rotor winding faces. The rotor teeth form cylindrical contact surfaces on each side of the rotor.

For motors powered by semiconductor frequency converters, a rotor cage should be provided to suppress the effects of higher harmonics. This cage is formed from conductive wedges of the rotor winding and a non-magnetic bandage of the rotor winding faces. During operation, the damping winding thus performed due to thermal dilatations of the mechanical running causes shifts on the contact surface between the rotor winding wedges and the non-magnetic bandage, which is undesirable. These shifts can lead to a substantial increase in contact resistance and thereby degradation of the cushioning cage effects.

In addition, the non-magnetic bandage would be stressed by the movement of the wedges. Furthermore, solutions are known in which a short-circuit contact damping cage is provided, which is technically not only extremely demanding but also expensive.

These drawbacks are overcome by the solution according to the invention, characterized in that the cylindrical contact surfaces on both sides of the rotor are provided with at least one groove in which the insert of metallic non-magnetic material is located.

An advantageous embodiment consists in that the insert of metal non-magnetic material is circumferentially divided.

The advantage of the solution of the device for stabilizing the contact surfaces of the damping cage according to the invention lies in particular in the long service life of the contact joint at the point of transfer of the largest currents, and its realization requires both low consumption of live work and material.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be explained in more detail below with reference to the exemplary embodiment shown in the accompanying drawing.

Fig. 1 is a schematic cross-sectional view of a contact surface formed by the rotor winding wedges with a non-magnetic bandage of the rotor winding faces planar along the major axis of the machine.

FIG. 2 is a plan view of the contact surface of FIG. 1.

FIG. 3 is a schematic view of the rotor body.

The conductive wedges 11 of the rotor winding are provided with a shoulder at each end thereof. The teeth 2 of the rotor are provided with the same shoulder. These shoulder ends of the conducting wedges 7 of the rotor winding and the rotor teeth 2 form at each end of the rotor a cylindrical contact surface 2 on which the non-magnetic bandage 4 of the rotor winding faces abuts. The cylindrical contact surfaces 2 are provided with a groove 2 ⁱⁿ which an insert of metallic non-magnetic material is disposed. Several such grooves 5 may be formed in each cylindrical contact surface 2. The width of each groove 5 is at least 1.5 mm. since the cylindrical contact surface 2 is alternately formed by the rotor teeth 2 and the conductive wedges 2 of the rotor winding, the conductive wedges 2 ^{and the} non-magnetic bandage 4 of the winding faces cannot be axially displaced by the metallic non-magnetic material insert 6 in the groove 2, thus ensuring sufficient stability of the cylindrical contact surface 2 · Thermal dilatations of the conductive wedges 2 of the rotor windings are aligned with the conductive wedges 2 of the windings towards the center of the rotor, as shown in Fig. parts 2 of the wedges 2 of the rotor winding are formed by expansion gaps 2 ·

For the realization of the insert 2 ^{made of} metallic non-magnetic material, it is advantageous to use a non-haghetic bandage wire of circular cross-section, which can be distributed circumferentially for technological reasons.

The invention is applicable to two-pole synchronous cage power limit synchronous machines powered by semiconductor frequency converters and other synchronous motors of the same damping winding design.

Claims (2)

SUBJECT OF THE INVENTION A device for stabilizing the contact surfaces of a damping cage in two-pole synchronous power motors powered by semiconductor frequency converters supported on each side of a rotor by a non-magnetic bandage of the rotor winding faces, the damping cage consisting of conductive wound rotor windings. The cylindrical contact surfaces (3) on both sides of the rotor are provided with at least one groove (5) in which the insert (6) of metallic non-magnetic material is located. Device according to claim 1, characterized in that the insert (6) of metallic non-magnetic material is circumferentially divided.