Insulating cap for an end winding of an electrical machine working at high voltage and machine having such an insulating cap

An insulating cap is provided for an end winding of an electrical machine working at a high voltage, the end winding including a plurality of insulated winding bars protruding from respective winding slots and electrically conductively connected to one another in pairs at their ends so as to form a plurality of electrical connections. The cap includes an opening allowing the insulating cap to be pushed over a region of one of the electrical connections such that the insulating cap insulates an outside of the electrical connection. An interior includes a layer configured to gradually dissipate a high electrical field in the region of the electrical connection to an outside of the insulating cap, the outside of the insulating cap being at earth potential.

CROSS-REFERENCE TO PRIOR APPLICATIONS

Priority is claimed to Swiss Patent Application Nos. CH 00732/11, filed on Apr. 29, 2011, and CH 00861/11, filed on May 20, 2011. The entire disclosure of both applications is hereby incorporated by reference herein.

FIELD

The present invention relates to the field of electrical machines and to an insulating cap for an end winding. It also relates to an electrical machine having an end winding with such insulating caps.

BACKGROUND

The electrical windings (of the rotor or stator) of electrical machines working at high voltage, e.g. electric generators or motors, in particular slip-ring rotor motors, have end windings at the ends in which the winding bars protruding from the slots of the laminated cores are conductively connected to one another in pairs. The electrical connection is frequently made by means of lugs which are soldered to the conductor ends of the winding bars from which the insulation has been removed. The connecting points are then electrically insulated by pushing on special insulating caps. Examples of such end windings are described in publications DE 1 281 015 B, DE 42 37 079 A1, EP 1 821 389 A1 or U.S. Pat. No. 4,309,636 A.

Insulating caps for end windings of electrical machines working at high voltage which are at high-voltage potential cannot be earthed on the outside.

Furthermore, a gradient material can be provided on the inside of insulating caps (see, for example, WO 2004038735 A1) in order to reduce the electrical field strength in the interior of the insulating cap. The outside of insulating caps of this type is still at high voltage however, so that the external surface cannot be earthed.

SUMMARY OF THE INVENTION

In an embodiment, the present invention provides an insulating cap for an end winding of an electrical machine working at a high voltage, the end winding including a plurality of insulated winding bars protruding from respective winding slots and electrically conductively connected to one another in pairs at their ends so as to form a plurality of electrical connections. The cap includes an opening allowing the insulating cap to be pushed over a region of one of the electrical connections such that the insulating cap insulates an outside of the electrical connection. An interior includes a layer configured to gradually dissipate a high electrical field in the region of the electrical connection to an outside of the insulating cap, the outside of the insulating cap being at earth potential.

DETAILED DESCRIPTION

However, it would be advantageous for various electrical and mechanical reasons to be able to earth the external surface of such insulating caps. Insulating caps which are at high voltage on the inside and can assume any voltage potential between high voltage and earth potential on the outside would be necessary for this purpose.

In an embodiment of the invention, insulating caps are provided which enable the external surface to be earthed.

Furthermore, in an embodiment of the invention, an electrical machine is provided having an end winding with insulating caps of this kind.

In an embodiment, the invention starts from an insulating cap for the end winding of an electrical machine working at high voltage, which end winding comprises a plurality of insulated winding bars which protrude from winding slots and are electrically conductively connected to one another in pairs at their ends, wherein the region of the electrical connection is in each case insulated with respect to the outside by an insulating cap which is pushed over said connection with an opening. It is distinguished in that the insulating cap has means in the interior which enable the high electric field in the region of the electrical connection to be gradually dissipated to the outside of the insulating cap which is at earth potential.

An embodiment of the invention is characterized in that the gradual dissipation means comprise a gradient layer made of a gradient material which, when the insulating cap is pushed on, reaches from the region of the electrical connection to the opening of the insulating cap.

An improvement of this embodiment is distinguished in that the insulating cap has a central insulating layer which is provided on the outside with an outer conductor layer or semiconductor layer, in that an inner conductor layer or semiconductor layer is arranged on the inside of the central insulating layer in the region of the electrical connection, and in that the gradient layer reaches from the inner conductor layer or semiconductor layer to the opening of the insulating cap.

In particular, in an embodiment, the gradient layer overlaps the inner conductor layer or semiconductor layer in a limited overlapping zone.

Another embodiment is characterized in that the gradient layer is extensively embedded in the central insulating layer of the insulating cap.

Yet another embodiment is characterized in that the gradient layer is extensively arranged on the central insulating layer of the insulating cap.

The electrical machine working at high voltage according to an embodiment of the invention, which comprises a winding having an end winding, is characterized in that the end winding is fitted with insulating caps according to the invention.

Preferably, at least one insulating cap of the end winding is earthed on the outside.

In particular, all insulating caps of the end winding are earthed on the outside or the whole end winding is earthed.

Two winding bars11and12of an end winding10, which are electrically connected to one another at the ends and are insulated with respect to the outside by a push-on insulating cap16, are shown in a perspective, simplified side view inFIG. 1. In order to insulate them against the laminated core, in the slots of which they are accommodated, the winding bars11and12are encompassed by an external insulation13which is removed at the ends of the winding bars11,12in order to expose the central electrical conductors14of the winding bars11,12for the electrical connection. A special lug15, which for example is soldered to the exposed conductor ends of the winding bars11,12, is used for the electrical connection. The insulating cap16is provided to insulate the electrical connection14,15.

According to the invention, the insulating cap16is designed so that the electrical connection14,15can be at high-voltage potential, while the outside of the insulating cap16can be maintained at earth potential or at any potential between earth potential and high-voltage potential. This is achieved by special means which are provided in the interior of the insulating cap16. These special means comprise a gradient layer which can be arranged in different ways in the interior of the insulating cap16. Two exemplary embodiments of this arrangement are shown in longitudinal section inFIGS. 2 and 3.

FIG. 2shows an insulating cap16awhich, in longitudinal section, has a U-shaped profile which forms an interior17and is provided with an opening23on one side. The insulating cap16ahas a central insulating layer20which is covered on the outside over its whole surface by an outer conductor layer or semiconductor layer21. An inner conductor layer or semiconductor layer18is arranged on the inside of the central insulating layer20in the region which accommodates the electrical connection14,15. A gradient layer19, which reaches from the inner conductor layer or semiconductor layer18to the opening23of the insulating cap16a, is also provided. In this exemplary embodiment, the gradient layer19is extensively embedded in the central insulating layer20of the insulating cap16a. It overlaps the inner conductor layer or semiconductor layer18in a limited overlapping zone22.

In the exemplary embodiment ofFIG. 3, the gradient layer19of the insulating cap16bis extensively arranged on the surface of the central insulating layer20of the insulating cap16b. A limited overlapping zone22with the inner conductor layer or semiconductor layer18is also provided here.

The gradient layer19produces (in operation) an electrical gradient field which reaches from the high voltage in the region of the electrical connection14,15to the outer surface21of the insulating cap16a,band therefore enables a freely selectable potential on the outer surface21. A gradient material, such as that described in publication WO 2004038735 A1 mentioned in the introduction, is for example a possible material for the gradient layer19.

An earthing of individual caps and also an earthing of the whole end winding become possible with an insulating cap16a,bof this kind. If, for example, the surface of the winding bars within the machine is earthed, this reduces or entirely removes the risk of unwanted partial discharges in the air.

A further advantage consists in that the earthed insulating caps enable a mechanical fixing to earthed parts of the machine. This significantly improves the mechanical stability and simplifies the design of the end winding.

Further advantages, particularly in conjunction with high-voltage machines such as generators, motors or slip-ring rotor motors, are improved efficiency, higher availability and—in the case of slip-ring rotor motors—increased operating safety under critical environmental conditions. Depending on the type of machine, the insulating caps according to the invention can be used with the rotor winding and/or the stator winding.

A further advantage of the insulating caps according to the invention consists in that their use enables whole end windings to be earthed.

In numerous electrical machines, there is a risk of a mixture of dust and oil collecting in the end windings during operation which can lead to leakage paths and therefore to insulation faults.

The high-voltage windings are usually earthed on the outside in the region of the laminated cores. The voltage on the outer surface increases from the slots of the laminated cores to the electrical connecting points of the individual winding bars until it reaches the high voltage of the machine. This high voltage on the outer surface of the winding requires adequate clearances in air between the winding elements themselves and the winding elements which are at earth potential or which belong to a different phase. When the machine, and especially the winding, is contaminated, there is a certain risk of partial discharges and leakage paths on the winding. This can lead to faults and to the breakdown of the insulation.

If the end windings as a whole are now earthed, the clearance in air between the winding elements can be optimized with regard to other parameters, in particular with regard to cooling. The clearances in air of the winding elements with respect to the earthed parts of the machine can then be eliminated or at least drastically reduced. In this way, the electrical machine becomes more tolerant to faults with regard to dust and moisture.

The earthing of the end windings as a whole can advantageously be realized using the insulating caps according to the invention. However, it is also conceivable to achieve the advantages of overall earthing in a different way without the special insulating caps.

While the invention has been described with reference to particular embodiments thereof, it will be understood by those having ordinary skill the art that various changes may be made therein without departing from the scope and spirit of the invention. Further, the present invention is not limited to the embodiments described herein; reference should be had to the appended claims.

LIST OF REFERENCES