SU243036A1 - - Google Patents

Description

The windings of excitation of electric machines are known, in particular of contactless electric machines with an evaporative cooling system, which are made in the form of IB concentric coils. In these windings, the easily evaporating coolant enters the air gaps between the turns, where it is evaporated.

However, despite the high cooling intensity, the fill ratio

THREADING LOW.

The proposed winding is different from the fact that between the layers of the windings there is a padding of a strip of thermally conductive material protruding beyond the surface of the coils to which the evaporating cooling agent enters. As: e heat, water material can be used on copper foil. Such a winding allows the intensity of its cooling to be increased.

The drawing shows the proposed winding; .

 The stationary crank winding is divided in axial "direction into two successive coils}.

When each coil is wound between the layers of the Winding wire, the strips 2 are made of heat-conducting material, for example copper foil, in such a way that they protrude beyond the coil.

The gaskets can be made in the form of separate petals, which in each subsequent layer are set offset by a certain angle relative to the previous one.

Between the coils of the winding, centered on the outer diameter, a spacer bushing 3 is installed, and inside 0– winding is a thin-walled cylindrical diffuser 4 attached to the rotor 5 and rotating along with it.

Channel 6 in the duct is supplied with a refrigerant.

When the electric machine operates in the underload mode, the refrigerant enters IBO, the inner cavity of the atomizer 4, under the action of centrifugal forces, spreads along the inner surface of the atomizer and moves axially to the edge, where the fan | deposited on copper foil strips.

Since heat is transferred from the copper winding wire through the excitation winding through the insulation to the copper foil gaskets, the heat loss of the winding is removed by the foil when the refrigerant evaporates on the protruding portions of the foil petals. The temperature of the foil at this p-avna boiling point of the refrigerant at a given atmospheric.m pressure. Couples

formed during the evaporation of the refrigerant, go out through the holes 7 in the magnetic pipe.

Subject and dividing in,

Claims (2)

1. The excitation winding of an electric machine, in particular a contactless electric machine with and a sponge of the cooling system, is made in the form of a co-centric coil, characterized in that, in order to increase the cooling intensity, between the winding layers: material protruding beyond the surface of the coils, which receive a light steaming refrigerant. 2. Excitation winding according to claim 1, characterized in that, as the heat-conducting material used copper foil.