Composite rotor sleeve
First Claim
Patent Images
1. In a dynamoelectric machine, the combination of:
- a rotor adapted to be journaled for high speed rotation about an axis;
electrical windings carried by said rotor;
means for defining a flow path for a coolant through said rotor in heat exchange relation with said windings;
a composite sleeve including fibrous material surrounding said rotor and containing said windings during speed rotation of said rotor and a resin, said fibrous material comprising elongated wound fibers, one of said resin and said fibers having a negative coefficient of thermal expansion, the other of said resin and said fibers having a positive coefficient of thermal expansion, at least some of said fibers being wound at a preselected angle between 0° and
90°
to said axis whereat the coefficient of thermal expansion of said sleeve is about the same as that of said rotor; and
a continuous film of polyimide material on the interior of said sleeve and interposed between said sleeve and said rotor for preventing coolant from said flow path from passing through said sleeve.
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Abstract
Leakage of a coolant into the air gap (16) of a dynamoelectric machine so as to cause undesirable windage losses may be avoided through the use of a composite rotor sleeve (44) including a continuous film (46) of polyimide material on its radially inner surface and surrounding the machine rotor (22).
51 Citations
12 Claims
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1. In a dynamoelectric machine, the combination of:
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a rotor adapted to be journaled for high speed rotation about an axis; electrical windings carried by said rotor; means for defining a flow path for a coolant through said rotor in heat exchange relation with said windings; a composite sleeve including fibrous material surrounding said rotor and containing said windings during speed rotation of said rotor and a resin, said fibrous material comprising elongated wound fibers, one of said resin and said fibers having a negative coefficient of thermal expansion, the other of said resin and said fibers having a positive coefficient of thermal expansion, at least some of said fibers being wound at a preselected angle between 0° and
90°
to said axis whereat the coefficient of thermal expansion of said sleeve is about the same as that of said rotor; anda continuous film of polyimide material on the interior of said sleeve and interposed between said sleeve and said rotor for preventing coolant from said flow path from passing through said sleeve. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. In a dynamoelectric machine, the combination of:
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a rotor adapted to be journaled for high speed rotation about an axis; electrical windings carried by said rotor; means for defining a flow path for a coolant through said rotor in heat exchange relation with said windings; a composite sleeve including elongated wound fibers in a matrix of resin surrounding said rotor and containing said windings during speed rotation of said rotor, one of said resin and said fibers having a negative coefficient of thermal expansion, the other of said resin and said fibers having a positive coefficient of thermal expansion, at least some of said fibers being wound at a preselected angle between 0° and
90°
to said axis whereat the coefficient of thermal expansion of said sleeve is about the same as that of said rotor; anda continuous film of coolant and high temperature resistant material on the interior of said sleeve and interposed between said sleeve and said rotor for preventing coolant from said flow path from passing through said sleeve. - View Dependent Claims (9, 10)
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11. In a dynamoelectric machine, the combination of:
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a rotor adapted to be journaled for high speed rotation about an axis; electrical windings carried by said rotor; and a composite sleeve including fibers in a matrix of resin surrounding said rotor and containing said windings during high speed rotation of said rotor, said fibers being wound within said sleeve in a plurality of plies at differing angles to said axis and being formed of a material having a first coefficient of thermal expansion, said resin having a second and different coefficient of thermal expansion, at least one of said angles being chosen so that said composite sleeve has a third coefficient of thermal expansion that is about equal to the coefficient of thermal expansion of said rotor. - View Dependent Claims (12)
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Specification