Generator rotor cooling
First Claim
Patent Images
1. A generator comprising:
- a stator including a main armature;
a rotor journalled for rotation within said stator, said rotor including(a) a main field winding,(b) an exciter armature,(c) a rectifier interconnecting said field winding and said exciter armature, and(d) a housing containing said rectifier; and
cooling means for said rotor including(a) a coolant inlet connected to the interior of said housing,(b) an outlet port from said housing,(c) at least one elongated conduit in heat transfer relation with said field winding having opposed ends,(d) a coolant outlet from said rotor, and(e) a distributor within said rotor for(i) directing coolant from said outlet port to one end of said conduit and(ii) receiving coolant from the other end of said conduit and directing the coolant to said coolant outlet.
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Abstract
Difficulties in cooling the rotor (28) of a dynamoelectric machine carrying a rotating rectifier (54) are avoided by providing a coolant inlet 68 extending to the interior of a rectifier housing 50 through which the coolant may flow to emerge from a port 66 in the housing 50 and flow via an annulus 52 within the rotor shaft 30 to conduits 98 to cool the rotor windings 48. The coolant is returned to the interior of the rotor shaft 30 and ultimately to a coolant outlet 84.
44 Citations
9 Claims
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1. A generator comprising:
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a stator including a main armature; a rotor journalled for rotation within said stator, said rotor including (a) a main field winding, (b) an exciter armature, (c) a rectifier interconnecting said field winding and said exciter armature, and (d) a housing containing said rectifier; and
cooling means for said rotor including(a) a coolant inlet connected to the interior of said housing, (b) an outlet port from said housing, (c) at least one elongated conduit in heat transfer relation with said field winding having opposed ends, (d) a coolant outlet from said rotor, and (e) a distributor within said rotor for (i) directing coolant from said outlet port to one end of said conduit and (ii) receiving coolant from the other end of said conduit and directing the coolant to said coolant outlet. - View Dependent Claims (2, 3, 4, 5)
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6. A generator comprising:
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a stator including a main armature; a rotor journalled for rotation within said stator, said rotor including (a) a main field winding, (b) an exciter armature, (c) a rectifier interconnecting said field winding and said exciter armature, and (d) a housing containing said rectifier; and
cooling means for said rotor including(a) a coolant inlet connected directly to the interior of said housing, (b) an outlet port from said housing, (c) at least one elongated conduit in heat transfer relation with said field winding having opposed ends; and first of said conduit ends being in fluid communication with said outlet port and second ones of said conduit ends being in fluid communication with said coolant outlet; whereby a serial coolant flow path extending first to said rectifier and secondly to said conduit is established for substantially the full flow of coolant through said rectifier housing. - View Dependent Claims (7, 8)
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9. A generator comprising:
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a stator including a main armature; a rotor journalled for rotation within said stator, said rotor including (a) a main field winding, (b) an exciter armature, (c) a rectifier interconnecting said field winding and said exciter armature, and (d) a housing containing said rectifier; and
cooling means for said rotor including(a) a coolant inlet to said rotor, (b) a coolant outlet from said rotor, (c) first and second spaced coolant ports in said housing, one of said ports being in fluid communication with one of said inlet and said outlet and (d) an elongated conduit having opposed ends located within said rotor and in heat transfer relation with said field winding, one of said ends being in fluid communication with the other of said ports and the other of said ends being in fluid communication with the other of said inlet and said outlet.
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Specification
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Current AssigneeSundstrand Corporation (Raytheon Technologies Corporation d/b/a RTX)
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Original AssigneeSundstrand Corporation (Raytheon Technologies Corporation d/b/a RTX)
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InventorsVaghani, Vallabh V., Flygare, Wayne A.
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Primary Examiner(s)SKUDY, ROBERT
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Application NumberUS06/755,255Time in Patent Office3,620 DaysField of Search310/61, 310/90, 310/68 R, 310/52, 310/68 D, 310/53, 310/114, 310/60 R, 310/165, 310/54, 310/58, 310/59, 310/64, 310/65US Class Current310/64CPC Class CodesH02K 11/042 Rectifiers associated with ...H02K 9/197 in which the rotor or stato...
