CS238732B1 - Fixing apparatus for front part of a stator winding in electrical rotary motors and method of its production - Google Patents

Abstract

Winding fastening device stator of electrical rotating machines, in particular short-circuit alternators solve the tangential problem and radially fastening the winding rods behind the output of the sheet metal slots and the method its fabrication. Coiled Rods) uncured insulation and trapezoidal the cutouts in the right and left sides are on the side facing and facing away from the air gap upper and lower triangular insert shape. All tabs are on the side facing away from the air gap o a fixed part of the annular shape. Mezi přílozkemi and a fixed ring-shaped portion is an insert.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fastening device for a stator winding front part of a rotating electrical machine, in particular a rod downstream of a slot of a sheet metal package, and to a method thereof.

The winding of rotating electric machines, in particular short-circuit alternators, is subject to the operation of temporally and spatially variable electrodynamic forces, which cause oscillation of the winding fronts. In order to reduce the amplitude of this oscillation to an acceptable limit, it is necessary to fix the windings in both tangential and radial directions.

Until now, this fixation has only been carried out in the tangential direction either by means of trapezoidal wedges, or by means of three wedges, two of which are retaining and have notches for engaging the bars and the third is spacing. The disadvantage of these methods is that they do not guarantee surface contact of the rod insulation with the imperfectly fitted fasteners. In places of eventual point or line contact, the insulation is compressed and the winding front parts are released.

The above mentioned drawbacks are eliminated by the fastening device of the winding stator winding front part and the method according to the invention, which consists in that between the winding rods provided with insulation and trapezoidal cutouts in the right and left shim there is an upper one on the side facing away from the air gap. and a triangular-shaped lower insert.

The two shims may be supported on the side facing away from the air gap on a fixed part of the annular shape.

There may be an insert between the two shims and the fixed portion of the annular shape.

On each winding rod provided with uncured insulation, the triangular-shaped upper and lower inserts are placed on its sides facing and away from the air gap. Then the right and left shims are applied and the shims of adjacent winding bars are spread with wedges so that at normal temperature there is a play between the two shims of the same winding bar which is removed by tapping the wedges after heating the winding to a suitable temperature.

Using the invention, the stator winding fronts are fixed in both tangential and radial directions. The reinforcement of the stator winding front part is improved in the radial direction by abutting the shims on a fixed part of an annular shape or on an insert which is shaped and compressed during curing. Since the winding rods are hardened during the reinforcing faces, the exact fit of the components used is eliminated.

An example of a practical embodiment of the present invention is shown in the drawing, in which the fixing device of the front part of the stator winding is partially sectioned.

Between the winding rods 2 provided with uncured insulation 2 and the trapezoidal cutouts 11 in the right and left shims 2, 10, a triangular-shaped upper and lower inserts 2, 12 are mounted on the side facing away from the air gap. All shims 21 ' are supported on the side facing away from the air gap on a fixed portion of annular shape. Between the shim 12 and the fixed part 1 of annular shape there is a shim.

On each rod & winding provided with uncured insulation 2 ee, on its sides facing and away from the air gap, it places the upper and lower inserts 2, U of triangular shape. Then attach right and left claw 2> 1 & ^and shims 12, two adjacent bars 2 the windings are spread apart wedges 1 so that, under normal temperature arose between both the brackets 2 <LFT V® · windings clearance 2 which upon heating coil to a temperature the gelation of the thermosetting insulation used is removed by tapping the wedges 1 · The fixed part ± of the annular shape is the laminate shrink. An adaptive material - prepreg - is used as the insert. After inserting the wedges χ, the right and left shims 2> 10 fasten the winding bars not only tangentially but also radially by means of the surfaces 2 of the trapezoidal cutouts 1.1.

The use of the invention is particularly suitable for rotating electrical machines in which the winding of the Sel winding at the outlet of the plate packet grooves, which are short-circuit alternators, is most stressed.

Claims (4)

SUBJECT OF THE INVENTION Fixing device Selects the stator windings of the electric machines, particularly those behind the outlet of the sheet metal grooves, characterized in that between the winding rods (6) provided with uncured insulation (7) and the trapezoidal cutouts (1!) In the right and left side plates (2). 10), the upper and lower triangular-shaped inserts (3, 12) are mounted on the side facing away from the air gap. Fixing device of the stator winding front part of electric machines rotating according to claim 1, characterized in that the two attachments (2, 10) are supported on the side facing away from the air gap by a fixed part (4) of annular shape. Fixing device of the stator winding front part of electric machines rotating according to Claims 1 and 2, characterized in that there is an insert (8) between the two shims (2, 10) and the fixed part (4) of the annular shape. Method for producing a fastening device of a stator winding front part of electric machines rotating according to items 1, 2 and 3, characterized in that a top is placed on each winding rod (6) provided with uncured insulation (7) on its sides facing away from the air gap. and the lower insert (3, 12) of triangular shape, then the right and left shim (2, 10) are applied and the shims (10, 2) of adjacent winding rods (6) are spread with wedges (1) so that by means of the two shims (2, 10) of the same rod (6) of the clearance winding (5) which, after heating the winding to a suitable temperature, is removed by tapping the wedges (1).