RU37440U1 - CASEless ELECTRIC MACHINE - Google Patents

Description

Chassisless: electric machine

The utility model relates to electrical engineering, in particular to the design of the stator of a frameless electric machine.

A known design of a frameless machine (see RF patent No. 1718341, НО2 К 9/08, 1992) adopted as a prototype, in which the stator core is assembled from packets with radial channels between them. The core is pressed in with the help of end rings with holes for the passage of U-shaped screeds, which are attached to the stator core and remote spacers of anemones by electric welding and thereby form axial ventilation ducts.

The disadvantages of this design are:

- uneven heating of the machine along the length due to the interaction of the refrigerant flows from two axial fans in the U-shaped axial channels;

-in the remote struts of the anemones of the radial ventilation ducts there are no pads on the struts along the outer contour of the anemones necessary to guarantee welding of the struts to the U-shaped ducts with an unfavorable addition of tolerances during the manufacturing of windows in the pressure rings and the installation of the rings on the stator core (the duct walls and spacers).

The objective of the utility model is to eliminate the above-mentioned disadvantages of the stator design and to ensure uniform heating of the machine along its length.

The technical result is achieved in that the frameless electric machine contains a stator core with radial

7MPKN02 K 9/08

ventilation ducts formed by remote struts of anemones, axial ventilation ducts, rotor, axial fans, and axial ventilation ducts have partitions in the middle part of their length, and remote struts of anemones are platforms for the possibility of air ducting to them.

The utility model is illustrated by the drawings, which depict in FIG. 1 a transverse partition in the middle of the axial duct, in FIG. 2 - remote struts of anemones with sites located along the outer contour of anemones with 11 air ducts of P-shaped or O-shaped nrophil.

The proposed open-frame electric machine contains a stator core 1 (FigL) with radial ventilation channels formed by remote struts of anemones 2, pressure rings 3 with windows that hold the core in a pressed state until the ties are welded, profile ducts 4, divided into two equal parts by partitions 5 and welded to the pressure rings 3, the core 1 and the struts of the anemones 2 (Figure 2), the rotor 6, axial fans 7.

An open-frame electric machine operates as follows.

When the rotor 6 rotates, axial fans 7 pump the refrigerant inside the machine, where it is divided into two flows A and B (Fig. 1).

The flow of refrigerant A enters the air gap between the rotor 6 and the stator 1 and further into the radial channels of the core of the stator 1 located between the axial ducts 4 (Figure 2) into the cooler zone, cooling by fluff. rotor core 6 and stator core 1 with winding.

The main part of the refrigerant - flow B (Fig. 1) passes from the zone of the frontal parts of the stator winding 1 through the windows of the pressure rings 3 into the axial ducts 4, the radial channels of the stator core 1, c

the air gap between the rotor 6 and the stator 1 and further together with the stream A leaves the radial channels of the core 1 into the cooler zone.

The technical result of this stator design is achieved by the fact that the partitions of the 5 axial ducts provide the division of the refrigerant into two equal parts and exclude their interaction with a low aerodynamic resistance of the oncoming flows, thereby increasing the cooling rate of the machine due to the uniform distribution of refrigerant along the length of the machine.

The proposed design of a frameless electric machine has been tested in a series of electric machines ATD4 type 4AZM1 with a gross capacity of 315-500 kW.

Claims (1)

An open-frame electric machine containing a stator core with radial ventilation ducts formed by remote struts of anemones, axial ventilation ducts, a rotor, axial fans, characterized in that the axial ventilation ducts have partitions in the middle of their length, and the remote struts of anemones are areas for welding ductwork to them.