RU2003115447A - VENTILATION OF A ROTOR OF A DYNAMOELECTRIC MACHINE - Google Patents

Claims (6)

1. A dynamoelectric machine comprising a stator element, a rotor element mounted inside the stator element on an axially extending shaft, the rotor element having spaced apart from each other, radially passing first and second end parts and a plurality of spaced ventilation channels, each passing between the first and second end parts essentially in the axial direction, providing gas flow through the ventilation channels in one direction from the first end part to the second end part, an element of the first screen mounted on the rotor next to the first end part of the rotor for rotation with it, the first screen passing radially along the radially passing first end part of the rotor and spaced from it, determining the radial path of gas inlet between them, the first screen has a first radially inner the end part next to the shaft and spaced from it, defining a gas inlet and a second radial outer end part mounted on the rotor for directing gas into the ventilation ducts, and an element of the first screen and rotates with the rotor, reporting angular acceleration to the moving gas along the radial path of the gas inlet and into the ventilation ducts, and the second screen element mounted on the rotor next to the second end part of the rotor for rotation with it, the second screen passing radially along the radially passing second the end part of the rotor and carried away from it, determining with it the radial path of gas discharge, the second screen has a second radially inner end part near the shaft and spaced from it, determining the gas outlet and a second radial outer end part mounted on the rotor next to the ventilation ducts spaced apart for receiving gas leaving the ventilation ducts, and the second screen element rotates with the rotor, giving an angular deceleration to the gas leaving the ventilation ducts and passing along the radial ways to release gas. 2. The dynamoelectric machine according to claim 1, in which the rotor includes a plurality of spaced poles next to the air gap with the stator element, the adjacent poles having an axially extending interpolar space and a cap element extending between the poles across the interpolar spaces, determining ventilation channels. 3. The dynamoelectric machine according to claim 1, in which the machine is a dynamoelectric machine with a sealed rotor. 4. The dynamoelectric machine according to claim 1, in which each of the first and second screens has a curved edge surface next to the corresponding first and second radially outer end parts for redirecting the gas flow, respectively, between the radial and axial flow and the axial and radial flow. 5. The dynamoelectric machine according to claim 1, further comprising a fan motor next to one of the following: a gas inlet, a gas outlet and both for directing a gas flow into the gas inlet, along a radial gas inlet path, axially through the ventilation ducts, along the radial path of the gas outlet and from the gas outlet. 6. The dynamoelectric machine according to claim 1, in which the second exhaust screen extends radially toward the shaft at a predetermined distance less than the first intake screen.