DE3920785A1 - Horizontal axis electrical machine - has fixing plates supporting vertical carrier plates for stator lamination block - Google Patents

Abstract

The horizontal axis electrical machine has a stator lamination block (6) supported by at least 2 spaced vertical, annular carrier plates (8,9) via fixing wedges (17) around the full periphery of the stator lamination block (6). The carrier plates are attached to the machine housing (7) adjacent the horizontal plane of symmetry of the machine, each plate (8,9) having a straight vertical extension at this point for welding to an axial fixing plate (21). Tubular pipe sections (29) extending horizontally are attached to the latter and welded in turn to the machine housing (7). The fixing between each fixing plate (21) and the machine housing (7) may be effected via a casing section. The latter is stepped from one end of the machine to the other. USE - For high output gas-cooled electrical machine.

Description

TECHNICAL AREA

The invention relates to a horizontal-axis electrical cal machine with a stator sheet metal body, which by means of fastening wedges distributed its entire circumference in little at least two vertical and mutually spaced ring-shaped braced against supporting plates, which supporting plates in turn in the area of the machine via fastening parts with the housing connected to the machine, the annular support plates in the area of the horizontal plane of symmetry with a vertical extending extension are provided, to which a vertical and an axially extending mounting plate is welded on, the mounting plate with horizontal-axis pipe sections welded and these pipe pieces in turn to the housing are welded and between individual fasteners radial transverse walls are provided, which between the annular space Stator body and housing divided into individual chambers len.

The invention relates to a prior art, as it results for example from EP-PS 01 66 114.  

TECHNOLOGICAL BACKGROUND AND PRIOR ART

For gas-cooled electrical machines of the upper power large axial and radial strains occur in the stator sheet metal body, which on the housing as evenly as possible distributed must be transmitted.

In the air-cooled turbo known from EP-PS 01 66 114 generator is done by hanging the stator on the side sheet metal body by means of parallel to the axis the electrical machine perpendicular and mutually stood supporting plates. To avoid vibrations and thermi cal voltages during the operating state of the electrical The supporting plates are to keep the machine as small as possible ring-shaped and only in two areas of her hori zontal plane of symmetry on both sides via vertically straight extending extensions using fasteners with connected to the lower part of the housing. By far the largest part the circumference of the support plates is from the top and bottom of the housing partly spaced. The stator core is through its evenly distributed fastening wedges in the entire circumference Support plates braced. The fasteners consist of Mounting plates, each with the extensions of the Support plates are welded, as well as from horizontal axes Pipe pieces, which are welded to the mounting plates are. This attachment of the stator sheet metal body allows one easy assembly, easy accessibility to weld the construction parts and ensures good quality the welds.

However, the known arrangement is almost an approximation divided in the horizontal plane of symmetry of the machine Housing ahead to be able to insert the stator sheet metal body. The transition to hydrogen cooling is therefore not easy res possible because in particular the dividing surfaces between the housing bottom and top part problematic in terms of sealing are.

SUMMARY OF THE INVENTION

Based on the known, the object of the invention reasons to create a horizontal-axis electrical machine the one without expensive sealing measures even with hydrogen can be cooled and use (in the horizontal direction) undivided housing allows, but also by easy manufacture and safe operation.

This problem is solved with a horizontal axis electrical machine of the type mentioned in the beginning according to the fact that the on the annular support plates attached mounting plates on different diameters knives lying from the end of the machine to the other end are graded smaller that accordingly the associated attachment points on the housing alike are graded, and that the transverse walls each in two parts are formed and from a first ring on the stator body is attached, and a second ring that attaches to the housing is, with the free ring ends overlap and at the overlap one at least in the axial direction elastic seal is provided, and being from the other The outer diameter of the first seen from the machine end Rings are each smaller than the inside diameter of it adjacent second ring.

Such a machine allows the use of a (in Horizontal direction) undivided housing, because the (ge stator sheet provided with the stator winding if necessary body into the housing. Closed housing this type are much easier to make gas-tight and maintain the higher gas pressure (approx. 10 bar) with water fabric cooling stand.

In addition, the construction according to the invention has all advantages the well-known machine on:

• - Radial thermal expansions of the stator core in the Operating state of the electrical machine result in the ring-shaped support plates approximately symmetrical tension and evenly distributed radial pressure forces in the Fastening wedges.
• - Axial thermal expansions of the stator core and the resulting tensions are only on the Extensions of the ring-shaped support plates transferred and they become by slightly deforming the extensions balanced.
• - The support of the ring-shaped support plates in the housing bottom part, only in the areas of their horizontal symmetry level, allows an exact prediction of the stresses, that occur in these construction parts.
• - The relatively high radial vibrations in the stator laminated core act only in the horizontal axis plane and are by the flexibility of the housing is greatly reduced, so that Vibrations in the machine foundation can be greatly reduced.
• - The relatively small tangential sheet metal vibrations are also reduced by the housing.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawing, in which a preferred embodiment of the invention is shown

Fig. 1 shows a longitudinal section through the stator of an electrical machine's in the horizontal plane of symmetry;

FIG. 2 shows a simplified cross section through the stator according to FIG. 1 along the line AA thereof ;

Fig. 3 is an enlarged view of the side sheet metal suspension on the housing;

Fig. 4 is an enlarged view of the sheet metal suspension supply according to FIG. 3 on the support plates.

DETAILED DESCRIPTION OF THE INVENTION

In Figs. 1 and 2 is an existing from axially spaced component laminated packets 1, 2, 3, 4, 5 laminated stator core is suspended in a housing 7 of annular with the interposition of support plates 8, 9 and generally designated by the reference numerals 10, 11 fixing parts provided. 6 As can be seen in Fig. 2, the suspension takes place approximately in the horizontal plane of symmetry of the machine.

The horizontally undivided housing 7 has a circular cross section and is fastened to a foundation 14 by means of housing feet 12 with base plates 13 .

The support plates 8 , 9 have lateral (horizontally facing) extensions 15 in the area of the fastening parts 10 , 11 .

In the stator sheet metal body 6 , grooves 16 are provided which are evenly distributed over its outer circumference and in which press bolts 17 are located , for example with a rectangular cross section. These are usually threaded at the ends and serve to axially brace the stator sheet metal body 6 .

The press bolts 17 are welded with the interposition of wedges 18 with the annular plates 8 and 9 , the wedges 18 in the axially extending slots 19 in the Tragplat th 8 and 9 (see. Fig. 4); the weld seams are designated 20 .

The suspension of the annular support plates 8 , 9 in the housing 7 is illustrated in all essential details in FIGS. 1 and 3.

Vertically and axially extending mounting plates 21 are welded to the extensions 15 . The housing 7 is provided in the area of these mounting plates 21 with box-shaped indentations. For this purpose, a recess is provided in the housing wall, into which a box that is open on one side is welded. The horizontal box walls are 22, 23, the vertical box walls are marked with 24, 25 be. The box bottom 26 runs approximately plane-parallel to the fastening plates 21 . In the example, each box base 26 has two circular bores 27 , 28 through which horizontal-axial pipe pieces 29 , 30 are inserted.

These are butt-welded to the mounting plates 21 as well as welded in the box bottom 26 . The boxes are each closed by a screwed-on cover 31 .

Because the boxes are welded into the housing wall the (still in descriptive) assembly of the stator sheet metal body in the housing, all of these welds are easily accessible and also easy to check for correctness.

In gas-cooled electrical machines, the space between the stator sheet metal body 6 and the housing 7 is divided into several, typically at least three, annular chambers, which allow the supply and removal of the cooling gas to the stator or to the stator winding or from the rotor through the distances 32 between the partial sheet metal packs 1 , . . ., 5 serves.

These annular chambers - only the two ring chambers 33 and 34 are visible in FIG. 1 - and are formed by radially extending two-part partitions. Each partition consists of a first ring 35 , 36 , 37 , which is welded onto the stator plate body 6 , and from second rings 38 , 39 , 40 , which are welded to the inner wall of the housing 7 . The rings overlap radially and are sealed in the overlap area by an elastic sealing ring 41 with a U-profile, which is put over the first rings. In addition, the sealing ring has an outwardly facing sealing lip 42 .

In order to be able to retract the stator sheet metal body 6 , which may already be provided with the stator winding, around the housing 7 in the axial direction, the fastening plates 21 and the associated box bases 26 lie on ever smaller diameters as seen from the entry side. The same applies to the outer diameter of the first rings 35 , 36 , 37 and the inner diameter of the second rings 38 , 39 , 40 . It must also be ensured that the outer diameter at the height of the mounting plate 21 on the support plate 9 is smaller than the inner diameter of the ring 39th Accordingly, the outer diameter of the ring 36 is also smaller than the distance between the diametrically opposed box bottoms 26 which are assigned to the support plate 8 .

This is the only way to ensure that the stator plate body 6 (in the example from left to right in the direction of the arrow) can be inserted into the housing 7 .

After the stator sheet metal body 6 has been moved into the housing, the two machine parts are aligned with one another and temporarily braced against one another. In the bores 27 , 28 correspondingly cut pipe pieces 29 , 30 are inserted and first butt welded to the mounting plates 21 , the welds 20 being on the inner circumference of the pipe pieces. The welding of the pipe sections to the box bottom 26 (and thus to the housing) takes place on the outer circumference of the pipe sections 29 , 30 . This type of fastening, which is basically the subject of EP-PS 01 66 114, offers absolutely no tolerance problems. Possibly existing axial tolerances in the first and second rings are absorbed by the axial elasticity of the seals 41 .

Claims (2)

1. Horizontal-axis electrical machine with a stator sheet metal body which is clamped by means of fastening wedges distributed over its entire circumference in at least two vertical and mutually spaced annular support plates, which support plates in turn are connected in the area of the machine via fastening parts to the housing of the machine, the annular support plates in the area of the horizontal plane of symmetry are provided with a vertically extending extension, to which a vertically and axially extending fastening plate is welded, the fastening plate is welded to horizontally axial pipe pieces and these pipe pieces are in turn welded to the housing and radial transverse walls are provided between individual fastening parts are, which divide the annular space between the stator sheet metal body and the housing into individual chambers, characterized in that the fastenings fastened to the annular support plates ( 8 , 9 ) igungsplatten ( 21 ) on different diameters, which are seen from a machine end to the other end graded smaller, accordingly the corresponding attachment points on the housing ( 7 ) are equally graduated, and that the transverse walls are each formed in two parts and from a first ring ( 35 , 36 , 37 ), which is attached to the stator body ( 6 ), and a second ring ( 38 , 39 , 40 ), which is attached to the housing ( 7 ), exist, with the free ring ends overlapping and on the An overlap point, an at least axially elastic seal ( 41 ) is provided, and the outer diameter of the first rings ( 35 , 36 , 37 ) seen from the other end of the machine is smaller than the inner diameter of the second ring ( 38 , 39 , 40 ) adjacent to it ). 2. Machine according to claim 1, characterized in that the fastening between the housing ( 7 ) and the mounting plates ( 21 ) on the bottom of box-like indentations in the machine housing ( 7 ) takes place, the depth of the recesses gene graded from one to the other machine end increases.