SU448548A1 - Rotor of an electric machine with deep cooling - Google Patents

Description

one

The invention relates to the field of electric machines with deep cooling and can be applied in power engineering, transport and other industries.

Rotors of electric machines containing a deep-cooled skein are usually made in the form of a cryostat mechanically connected to the axles of the shaft.

For high power machines, the thickness of the inner wall of the cryostat, which is a non-magnetic cylinder with a winding fixed on it, has to choose 13 conditions of mechanical strength and the transfer of the necessary torque. This leads to an increase in wall thickness and, consequently, to an increase in heat influx to the deep-cooled rotor winding.

The purpose of the invention is to reduce heat gain to the rotor winding.

In the proposed rotor of an electric machine with deep cooling, this is achieved by making the inner wall of the stopper, in the zone of its connection with the shaft, in the form of two coaxial cylinders, the inner of which is thin-walled and directly connected to the shaft, and the outer one which includes protrusions on the ring which are pressed onto the shaft.

FIG. I shows the rostron knuckle in the place of its connection with the shaft, a longitudinal section; in fig. 2 shows an AA section of FIG. 1. FIG.

The cryostat contains an internal stand I, a screen 2, an outer shell 3, vacuum cavities 4, an internal thin-walled coaxial cylinder 5, an outer coaxial cylinder 6, a ring 7 with protrusions, a shaft 8, heat-insulate the 1st plug 9, heat exchanger 10,

the grooves II in the cylinder 6, the protrusions 12 of the ring 7. The torque from the shaft 8 through the ring 7 and the projections 12 of this ring entering the grooves II in the outer thick-walled cylinder 6, and through the cylinder 6 is transmitted to

the inner wall of the I cryostat with the rotor winding fixed on it. The contact connection of the protrusions-groove has a significant thermal resistance, which leads to a decrease in heat gain from the shaft 8 to the wall I of the cryostat through the cylinder 6.

The inner cylinder 5 is designed to center the rotor cryostat with the shaft. Its thickness is selected from the strength and stiffness conditions at the perception of bending moments. Since the bending forces of the rotating rotor are much smaller than the rotating ones, the cylinder 5 is structurally quite thin-walled. This allows for efficient heat removal from its surface by cooling the flow of refrigerant passing through the heat exchanger 10.

Reducing the heat gain along the shaft to the deep-cooled rotor winding, while ensuring the transmission of the required torque, which favorably affects the characteristics of the machine, increases its efficiency and reliability.

SUBJECT OF THE INVENTION A rotor of an electric cooling-bed with deep cooling, containing a cryostat with a winding placed in it and a shaft connected to it, so that, in order to reduce heat from flowing to the winding, a ring with protrusions is mounted on the latter, and the inner wall of the cryostat in this zone consists of two coaxial cylinders, the inner of which is thin-walled and directly connected: it is connected to the shaft, and the outer one is thick-walled, to the grooves in which the protrusions of the ring are placed but.