DE19837866A1 - Electrical rotational machine esp. turbo-generator - Google Patents

Abstract

An electric rotary machine (20) having a shaft (2) arranged along a main axis and which has an end face (8), an inner slip- ring (3) and an outer slip-ring (10) arranged between the inner slip-ring and the end face. The outer slip-ring and the inner slip-ring are electrically insulated from one another and the inner slip-ring (3) has an electrically conducting arrangement (4) extending in the direction of the main axis (9) to the end face (8), and arranged at least zone-wise between the shaft (2) and the outer slip-ring (10). The outer slip-ring is specifically shrunk onto the electrically conducting arrangement (4), and between the latter and the outer slip-ring (10) is provided an electrical insulation (11).

Description

The invention relates to an electric rotary machine, especially a turbo generator. The invention relates furthermore a slip ring arrangement for an electrical Ro station machine.

In the book "Manufacture of electrical machine windings nen "by H. Sequence, Springer-Verlag Vienna / New York, 1973 on page 198 the supply of excitation current to the rotor winding described a generator rotor. The excitation current the rotor winding is either over slip rings or over co-rotating rectifier one rigid with the rotor shaft coupled exciter supplied. The ladder for the and derivation of the excitation current are in a shaft bore arranged. They are several meters long and lead into the Winding head space. The radial connection between the pathogens current conductors in the shaft bore and the rotor winding accomplished by power supply bolts that either un indirectly at the end of the bale or for better access are arranged in front of the winding head. The pathogens Conductors in the shaft bore are either cooled Copper conductor or as a semicircular solid conductor, which the Completely fill the hole, executed.

The object of the invention is an electrical Rotationsma machine with a slip ring arrangement to specify the simple construction and easy on the shaft mon is animal. Another object of the invention is Specify slip ring arrangement that is easy on the shaft ner electric rotary machine is mountable.

According to the invention on an electrical Rotationsma The task is solved by an electric Rota  tion machine with a directed along a major axis Shaft that has an end face, an inner slip ring and one arranged between the inner slip ring and the front side has slip ring, the inner slip ring and the Au ßschleifring are electrically isolated from each other and where the inner slip ring turns in the main axis direction Frontally extending, electrically conductive arrangement points that at least partially between the shaft and the External slip ring is arranged. About the arrangement can current transferred via brushes to the inner slip ring Face of the shaft. From the front can the current depending on the type of use via appropriate electri cal conductors are forwarded. The leaders can in particular special be guided in the shaft. The inner slip ring is easy to mount on the shaft and easy to manufacture. The Outer slip ring is possibly together with the inside slip ring mountable or demountable.

In a preferred embodiment, the outer slip ring shrinkable onto the electrically conductive arrangement. Thereby the outer slip ring is very easy on the electric lei tendency arrangement and thus mountable on the shaft.

Is preferably between the arrangement and the outer grinding electrical insulation is provided. That’s why Arrangement and the outer slip ring electrically from each other isolated.

The insulation from a glass fiber mat is further preferred rial trained. The glass fiber material has a high Dielectric strength and high mechanical stability on, so that it is particularly suitable as insulation material is.

According to a preferred embodiment, the arrangement perpendicular to the main axis on a cross-sectional area that in symmetrical at least two times with respect to the main axis  is. Due to this configuration, the arrangement as such largely unbalanced, which means the effort for balancing the Shaft after assembly of the assembly is reduced since the Arrangement does not contribute to an unbalance.

The arrangement is preferably designed as a tube. There through the arrangement is rotationally symmetrical and therefore flat if as such largely unbalanced.

The inner slip ring on the shaft is further preferred shrinks. This also makes the inner slip ring simple mountable on the shaft. Already due to the shrinkage the slip ring is held firmly on the shaft. Additional with to attach the inner slip ring to the shaft therefore not necessary.

The electric rotary machine is preferably in the form of genes rator designed in particular as a turbogenerator. Preferred The electric rotary machine has a rotor with an excitation winding, the arrangement of the over Carrying an excitation current is used for excitation winding. Either the inner slip ring as well as the outer slip ring are easy to assemble and disassemble, so that if necessary quick and easy replacement of the inner slip ring and / or the outer slip ring is possible. Thus stand times of the electric rotary machine to perform an exchange of internal slip ring and / or external grinding ring small.

The task aimed at the electric rotary machine is alternatively solved according to the invention by an electrical Rotary machine with a dish along a major axis teten shaft, the one end face, an inner slip ring and one between the inner slip ring and the face has th outer slip ring, the inner slip ring and the outer slip ring are electrically insulated from each other and the inner slip ring being in the main axis direction  over the outer slip ring to the front side, elec trically conductive arrangement with a cross-sectional area right to the main axis, which cross-sectional area in symmetrical at least two times with respect to the main axis is. With such an arrangement there is an electric current Can be guided to the front of the shaft. From there the electricity can be forwarded by designated leaders. The electrical arrangement is designed so that it as such is already largely unbalanced. So it carries one The arrangement after mounting on the shaft is small at best to an imbalance.

He becomes the task aimed at a slip ring arrangement solved according to the invention by a slip ring arrangement, the is directed along a major axis, with an inside slip ring and an outer slip ring, the inside slip ring an extending in the main axis direction, has electrically conductive arrangement on which the outside slip ring can be applied, in particular shrinkable. Consequently is an electrical current through the conductive assembly can be conducted through the outer slip ring.

According to the ge on a slip ring assembly alternatively or additionally solved task by a Slip ring assembly directed along a major axis with an inner slip ring and an outer slip ring, the inner slip ring being in the main axis direction extending, electrically conductive arrangement with a cross cutting surface with respect to the main axis perpendicular to Main axis, which cross-sectional area at least is two-fold symmetrical. This is the electrically lei arrangement as such largely unbalanced.

The electric rotary machine and the slip ring arrangement voltage are based on the design shown in the drawing Examples explained in more detail. It shows schematically and not to scale:  

Fig. 1 ring assembly is a longitudinal section through a shaft having an abrasive,

Fig. 2 shows a cross section through the slip ring arrangement with a first embodiment of the arrangement and

Fig. 3 shows a cross section through the slip ring arrangement with an arrangement designed as a tube.

The same parts have the same reference number in all figures Chen provided.

In Fig. 1, a longitudinal section through a slip ring assembly 1 is shown, which is arranged on a ge along a main axis 9 directed shaft 2 of an electric rotary machine 20 shown only in sections. The elec trical rotary machine 20 comprises a stator 22 with a stator winding 23 and a rotor 24 with the shaft 2 and egg ner excitation winding 21st The shaft 2 has a shaft bore 6 in which two electrically insulated solid conductors 7 A and 7 B are arranged. The shaft 2 also has an end face 8 on which the solid conductors 7 A and 7 B end.

The slip ring arrangement 1 has an inner slip ring 3 and an outer slip ring 10 arranged between the inner slip ring 3 and the end face 8 . The inner slip ring 3 has a major axis in the direction of the end face 8 he stretching, electrically conductive assembly 4, which tend volatile ends with the end face. 8

The inner slip ring 3 has shrunk onto the shaft 2 . The outer slip ring 10 has shrunk onto the electrically conductive arrangement 4 . As a result, the outer slip ring 10 and the inner slip ring 3 are mechanically stable to one another and the entire slip ring arrangement 1 is connected to the shaft 2 without additional fastening means being required. Thus, the assembly or disassembly of the slip rings 3 and 10 by shrinking or shrinking can be carried out easily, without further manipulations for the attachment or removal of additional fastening means, such as screws and retaining bolts, are required.

Between the shaft 2 and the inner slip ring 3 with the order 4 , an electrical insulation 5 is arranged, where is electrically lined by the inner slip ring 3 of the shaft 2 . A further electrical insulation 11 is provided between the arrangement 4 and the outer slip ring 10 and serves to electrically insulate the outer slip ring 10 from the arrangement 4 . Insulations 5 and 11 can each be made of glass fiber material.

On the end face 8 , two electrical conductor elements 12 and 13 are arranged, with the conductor element 12, the arrangement 4 and the solid conductor 7 A and through the conductor element 13 of the outer slip ring 10 and the solid conductor 7 B are electrically connected to each other.

The solid conductors 7 A and 7 B are connected to the cutout provided on the shaft 2 attached excitation winding 21 .

To excite the excitation winding 21 , an excitation current I is transmitted to the inner slip ring 3 via a schematically indicated brush 14 . From there, the excitation current I is passed through the arrangement 4 through the outer slip ring 10 to the conductor element 12 . Through the conductor element 12 , the excitation current I passes to the solid conductor 7 A and thereby to the excitation winding 21st From the excitation winding 21 , the excitation current I is discharged via the solid conductor 7 B and via the conductor element 13 to the outer slip ring 10 and delivered to a schematically indicated brush 15 .

In Fig. 2 is a cross section through the slip ring assembly 1 through the outer grinding ring 10. The electrically conductive arrangement 4 has two conductors 16 and 17 , each of which is designed as a tubular jacket segment. The conductors 16 and 17 are arranged so that the cross-sectional area 4 A of the arrangement 4 with respect to the main axis 9 is two-fold symmetrical. As a result, the arrangement 4 as such and thus the slip ring arrangement 1 are largely unbalanced. When the shaft 2 rotates, an imbalance caused by the slip ring arrangement 1 is low.

The outer slip ring 10 is shrunk onto the arrangement 4 , the conductors 16 and 17 being electrically insulated by the insulation 11 from the outer slip ring 10 . The outer ßschleifring 10 has web-like elements 18 and 19 with which it rests on the shaft 2 . As a result, the outer slip ring 10 is mechanically stable with the electrical arrangement 4 and connected to the shaft 2 .

FIG. 3 shows a section through the outer slip ring 10 of a further slip ring arrangement 1 . The arrangement 4 is designed as a circular tube. The cross-sectional area 4 A of the arrangement 4 is thus rotationally symmetrical. The arrangement 4 is thus largely unbalanced as such. In addition, both the inner slip ring 3 and the outer slip ring 10 are geometrically simple and thus easy to manufacture.

Claims (12)

1. Electrical rotary machine ( 20 ) with a along a main axis ( 9 ) directed shaft ( 2 ), which has an end face ( 8 ), an inner slip ring ( 3 ) and an inner slip ring ( 3 ) and end face ( 8 ) arranged outside slip ring ( 10), wherein the outer grinding ring (10) and the inner grinding ring (3) are electrically insulated, and wherein the inner grinding ring (3), a processing in the main axis Rich (9)) having in the end face (8 extending, electrically conductive assembly (4), which is arranged at least in regions between the shaft ( 2 ) and the outer slip ring ( 10 ). 2. Electrical rotary machine ( 20 ) according to claim 1, wherein the outer slip ring ( 10 ) on the electrically conductive arrangement ( 4 ) is shrunk. 3. Electrical rotary machine ( 20 ) according to one of claims 1 or 2, wherein electrical insulation ( 11 ) is provided between the arrangement ( 4 ) and the outer slip ring ( 10 ). 4. Electrical rotary machine ( 20 ) according to claim 3, wherein the insulation ( 11 ) is formed from glass fiber material. 5. Electrical rotary machine ( 20 ) according to one of the preceding claims, wherein the arrangement ( 4 ) perpendicular to the main axis ( 9 ) has a cross-sectional area ( 4 A), which is at least two-fold symmetrical with respect to the main axis ( 9 ). 6. Electrical rotary machine ( 20 ) according to one of the preceding claims, wherein the arrangement ( 4 ) is designed as a circular tube. 7. Electrical rotary machine ( 20 ) according to one of the preceding claims, wherein the inner slip ring ( 3 ) on the shaft ( 2 ) is shrunk. 8. Electrical rotary machine ( 20 ) according to one of the preceding claims, which is designed as a generator, in particular a turbo generator. 9. Electrical rotary machine ( 20 ) according to one of the preceding claims, with a shaft ( 2 ) comprising rotor ( 24 ) having an excitation winding ( 21 ), wherein the order of the transmission of an excitation current (I) to the excitation winding ( 21 ) serves. 10. Electric rotary machine ( 20 ) with a along ei ner main axis ( 9 ) directed shaft ( 2 ), the one end face ( 8 ), an inner slip ring ( 3 ) and one between the inner slip ring ( 3 ) and the end face ( 8 ) arranged outer slip ring ( 10 ), the inner slip ring ( 3 ) extending in the direction of the main axis ( 9 ) to the end face ( 8 ) de, electrically conductive arrangement ( 4 ) with a cross-sectional area ( 4 A) perpendicular to the main axis ( 9 ), which cross-sectional area ( 4 A) is at least two-fold symmetrical with respect to the main axis ( 9 ). 11. slip ring arrangement ( 1 ), which is directed along a main axis ( 9 ), with an inner slip ring ( 3 ) and an outer slip ring ( 10 ), the inner slip ring ( 3 ) extending in the direction of the main axis ( 9 ), electrically conductive arrangement ( 4 ), on which the outer slip ring ( 10 ) is shrunk. 12. Slip ring arrangement ( 1 ), which is directed along a main axis ( 9 ), with an inner slip ring ( 3 ) and an outer slip ring ( 10 ), the inner slip ring ( 3 ) extending in the direction of the main axis ( 9 ), electrically conductive arrangement ( 4 ) with a cross-sectional area ( 4 A) perpendicular to the main axis ( 9 ), which arrangement ( 4 ) surrounds the outer slip ring ( 10 ) at least in some areas, the cross-sectional area ( 4 A) with respect to the main axis ( 9 ) being at least two-fold is symmetrical.