CS255692B1 - Equipment for limiting-output high-speed engines' stator winding face stiffening especially those which are fed from semi-conductor frequency converters - Google Patents

Abstract

The solution to the reinforcing device the winding stator winding motor face power ratings, especially those powered by semiconductor devices frequency converters, substantially increases its resistance to pulsating moments. Its essence is that the bolt is provided with an insulating pipe a in the gap between the insulating tube and between the wall of the opening in the insulating beam is provided insulating insert made of flexible material self-curing in air.

Description

(54) Equipment for reinforcing the stator windings of high-speed, high-power motors, mainly powered by semiconductor frequency converters

The solution for the winding stator reinforcement of high-speed limit motor motors, in particular powered from semiconductor frequency converters, significantly increases its resistance to pulsating moments. Its essence consists in that the bolt is provided with an insulating tube and in the gap between the insulating tube and the wall of the opening in the insulating beam there is provided an insulating insert made of a flexible material self-curable in air.

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for reinforcing stator winding faces of high-speed, high-power motors, in particular powered by semiconductor frequency converters, in which winding faces are provided with insulating beams fastened in bolt holes to the stator winding supports.

Up to now, the stator windings of the high-speed motor windings have been reinforced in such a way that the reinforcing device is realized as a part of an insulating system of cordonet applications, which are fibers, usually glass, wrapped in a stocking, e.g. U.S. Pat. No. 463 611, or by means of bolts tightened by bolts.

The disadvantage of both these known solutions is the insufficient flexibility of the reinforced basket of the stator winding faces at an otherwise high basic mechanical resistance. This disadvantage is especially evident in machines powered by semiconductor frequency converters, where in the whole mode of operation of the machine pulsating moments arise, which over time leads to the release of reinforcing structures.

These disadvantages are overcome by the solution according to the invention, characterized in that the bolt is provided with an insulating tube and in the gap between the insulating tube and the wall of the opening in the insulating beam there is provided an insulating insert made of flexible self-curing air.

One possible specific embodiment of the invention is that the length of the insulating tube is less than the length of the bolt body in the non-threaded portion.

The development of the invention further consists in that the length of the insulating tube is greater than the length of the bolt body in the non-threaded part and is flattened at its end to abut the bolt nut washer.

An advantage of the solution according to the invention is that the stator winding faces exhibit not only the desired high basic mechanical resistance, in particular against short-circuit current loads, but also dynamic mechanical resistance to the pulse moments caused by the pulse supply currents. In addition, the device according to the invention has sufficient flexibility. In addition, the bolts cannot spontaneously loosen due to vibrations from the pulsating moments or the parts of the reinforcing structure can be pushed away and gradually released.

The invention will be explained in more detail below with reference to the exemplary embodiments shown in the accompanying drawings.

FIG. 1 is a schematic cross-sectional view of the front of the machine through a plane passing through the major axis of the machine. Figures 2 and 3 show two specific embodiments of the device according to the invention.

The stator winding faces 2, which originate from the grooves 2 of the stator plates, are provided with insulating beams 2 fastened by bolts 4 to the stator winding supports (not shown). The bolts 4 are located in the holes formed in the insulating beams 2. The insulating beams 2 are arranged above the winding bandage of the rotor 6. The stud 14 is provided with an insulating tube T. According to a first particular embodiment of the invention shown in FIG. 2, the length of the insulating tube T is less than the length of the bolt body 4 in the non-threaded portion by at least 4 mm relative to the washer 2 when the nut 9 is tightened. ^{and a} bolt 2 provided with an insulating tube 7, is filled with an insulating insert 10 of a flexible air self-curing material.

According to a second embodiment of the invention shown in FIG. 3, the insulating tube has a length greater than the length of the bolt body 4 in the threadless portion and is flattened at its end facing the bolt nut 2 so that the washer 2 of the bolt 2 . This embodiment of the insulating tube T achieves an increase in its stress resistance. Also in this embodiment of the invention, the space between the circular opening in the insulating beam 2 ^{and the} bolt 2 provided with the insulating tube 7 is filled with an insulating insert 10 of an air self-curable flexible material which extends below the flattened end of the insulating tube 2.

It is advantageous to provide the ends of the insulating beams 3, for example by chamfering their edges so that they do not interfere with the air gap. For the same reason, it is advantageous to embed the nuts 4 of the bolts 4 in the insulating beams 2 as can be seen from FIG. 1. This measure greatly facilitates the assembly of the machine rotor.

The invention is applicable to high-speed, high-power motors powered by semiconductor frequency converters.

Claims (3)

SUBJECT OF THE INVENTION A device for reinforcing the stator winding faces of high-speed, high-power motors, in particular powered by semiconductor frequency converters, in which the winding faces are provided with insulating beams fastened in studs through the holes of the insulating beams to the stator winding supports, 1) is provided with an insulating tube (7) and in the gap between the insulating tube (7) and the wall of the opening in the insulating beam (3) there is provided an insulating insert (10) made of a flexible air self-curing material. ' Device according to claim 1, characterized in that the length of the insulating tube (7) is smaller than the length of the bolt body (4) in the non-threaded part. » Device according to claim 1, characterized in that the length of the insulating tube (7) is greater than the length of the bolt body (4) in the non-threaded part and is flattened at its end to abut the washer (8) of the bolt nut (9). ).