SU532937A1 - Electric machine - Google Patents

Description

The invention relates to the field of electrical engineering and relates to electrical machines with evaporative cooling.

An evaporative cooled electric machine is known, comprising a rotor disposed on a shaft with a silver heat transfer portion and short-cored rings hollow and communicating with said portion. However, it does not provide high cooling efficiency, since it provides for a separate supply of liquid from the condensation zone of the heat pipe to the evaporation zones, which use short-circuited rings 1.

Also known is an electrical engine containing a rotor in which coolant is supplied through channels formed by grooves of various lengths made on the outer surface of the axle body. However, in such a machine, the working space in the central part of the shaft of the passageway of the cooler 2 is reduced.

The aim of the invention is to increase the cooling efficiency.

This is achieved in that the rotor shaft is formed with a cavity, having grooves of various lengths on the inner surface, through which the heat transfer portion, which is formed at one of the shaft ends, communicates with the cavity of short-circuited rings.

FIG. 1 shows the proposed electrical machine, longitudinal section; in fig. 2 - the same, sections A-A, BB, B-B of FIG. one; in fig. 3, the proposed machine, the surface of the shaft is made conical.

The electric motor shaft 1 has an internal cavity 2 with longitudinal grooves 3 of different lengths, made in the internal section 4 of shaft 1, and they are separated from each other by teeth 5. Through the grooves 3 of the cavity of short-circuited rings 6, they are connected to the heat transfer section 8 of the shaft . The cooler evaporated into the webs of short-circuited rings enters the internal cavity of the shaft and condenses on the internal surface of the shaft. To improve the flow of condensate from the condensation zone 9 to the evaporation zone, the inner surfaces of the shaft and grooves can be made conical, with the smaller base of the cone located in the condensation zone.

The cooling system of the electric machine works as follows.

Claims (2)

The liquid cooler, which is in the inner shaft cavity, is a heat pipe, is accelerated by centrifugal forces and moves along the grooves in the inner surface of the shaft in the axial direction towards the radial channels connecting to the cavity of short-circuited rings, which are the evaporation zone. Evaporating, the gaseous coolant from the evaporation zone through the radial channels enters the internal cavity of the shaft, into the condensation zone, where the condensate is distributed evenly across the grooves of various lengths. In addition, each parallel stream of condensate enters the corresponding radial channels for passage in the cavity of short-circuited rings. An electric machine with evaporative cooling, comprising a rotor placed on a shaft with a finned heat transfer section, a condenser, and short-circuited rings, which are evaporators, filled with airtight, hollow, and communicating with said area, characterized by the fact that to increase cooling efficiency, the shaft is made with a cavity having grooves of various lengths on the inner surface, through which a heat transfer area is specified, executed at one of the shaft ends, oobschaets with cavities shorted rings. Sources of information taken into account in the examination: 1. Express information Electrical machines and equipment, Moscow, № 4, 1975, p. 1-8 (prototype;. 2. Copyright certificate CCCPN 404161, M. l Н02К9 / 16, 1972. Dga. Izl. 2