SU792485A1 - Electric machine stator - Google Patents

Description

(54) ELECTRIC MACHINE STATOR

one

The invention relates to electric engineering / in particular to the design of the stator of large electric machines, hydrogenerators.

A stator is known that contains a magnetic core and an outer cage fixed in grooves by means of magnetic wedges.

The disadvantage of such machines is the relatively low efficiency of magnetic wedges due to low magnetic permeability and low reliability due to their insufficient mechanical strength.

Also known is the electric stator of an electric 11in containing magnetopro. waters with grooves and winding, fixed in the grooves by means of wedges and gaskets.

In such machines, an increase in the depth of the groove and an increase in the number of turns of the stator winding is used to reduce the starting current.

The disadvantage of the design is a slight decrease in the inrush current and a deterioration in performance.

The aim of the invention is to improve. performance performance.

The goal is achieved by the fact that the stator is equipped with additional gaskets made of ferromagnetic material, insulated from the walls

5 of the groove, divided into several parts in the longitudinal and transverse directions, or having slots in the transverse direction. Additional pads placed between the first

0 of the mentioned gaskets and winding, or between the layers of the winding, or both at the same time.

FIG. 1 shows a part of a stator with a groove and a winding; in Fig.2 15, additional gaskets consisting of parts) in Fig 3, additional gaskets with slits.

The stator of the electric machine contains a magnetic core 1, a winding 2,

20 3 fixed in the grooves of the magnetic circuit by means of wedges 4 and gaskets 5 made of insulating material. Between the gaskets 5 and the winding 2 and between the layers of the winding there are spacers 6, 7 made of a ferromagnetic material and insulated from the groove walls 8 by insulating 9.

Additional pads 6, 7, made of insulated sheets

-electrical steel, can be divided into several parts in the transverse and longitudinal directions, or made with a slot of 10.

When a current flows in the stator winding 2.3, a magnetic flux of the slot scatter occurs, which closes through the slot in a direction transverse to its axis.

Additional ferromagnetic blinkers, 7, significantly reduce the resistance to the scattering flow and increase its value, while increasing the inductive resistance of the clamping 2, 3 of the stator 1 and the starting current decreases with asynchronous start of the electric machine.

Insulating pads 5 are used as seals and are installed in place to compensate for production deviations.

In order to avoid the occurrence of inductive current in ferromagnetic gaskets 6, 7 and closure of the teeth of the stator magnetic circuit, gaskets b, 7 are insulated.

Execution of gaskets b, 7 from insulated sheets reduces losses, reduces their heating from the slot-scattered magnetic flux and increases the design reliability.

Making the pads 6, 7 divided into parts in the longitudinal and transverse directions, as well as performing them with slots 10, reduces losses, reduces their heating from the main magnetic flux penetrating into the slots from the electrical air gap of the electric head.

The location of the ferromagnetic gaskets between the insulating gaskets and the winding is most effective in terms of reducing the starting current. At the same time, in ferromagnetic seals, the losses caused by the penetration of a part of the magnetic flux from the air gap into it are increased.

From the point of view of reducing losses and heating of ferromagnetic gaskets, it is more preferable to arrange them between the layers of the winding in its double-layer design.

Choice of one or another variant of placement of ferromagnetic seals

or a combined placement option is produced on a case-by-case basis by analyzing the design, taking into account the influence of the location of the gaskets 6.7 on both the starting current and the heating thereof.

The stator design of an electric machine with additional seals made of ferromagnetic material reduces the starting current during asynchronous start-up, as a result of which the reliability of the machine is improved by reducing electrodynamic forces and heating, the reliability of electrical equipment associated with this electric machine is improved.

Claims (6)

Invention Formula 0 i- The stator of an electric machine containing a magnetic core with grooves and a winding fixed in the slots by means of wedges and gaskets, characterized in that 5 in order to improve performance, it is equipped with additional gaskets made of ferromagnetic material and insulated from the walls of the groove. Q 2. The stator according to claim 1, wherein the additional gaskets are divided into several parts in the transverse and longitudinal directions. 3. The stator according to claim 1, wherein the additional gaskets have slots in the transverse direction. 4.Stator on PP. 1-3, characterized in that additional gaskets are placed between the first of the mentioned pads and windings. 5.Stator on PP. 1-3, which is based on the fact that additional spacers are placed between the layers of the winding. 6.Stator on PP. 1-3, characterized in that the additional gaskets are placed between the first of said gaskets and the winding and between the layers of the latter.