Automotive alternator stator assembly with rectangular continuous wire
First Claim
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1. A stator core assembly for an alternator having a rotor assembly which presents a rotating, alternating polarity magnetic field, the stator core assembly having an annular core defining an outside diameter, an inside diameter, and a plurality of radially projecting winding slots opening to the inside diameter but terminating short of the outside diameter, the core further defining a lead side and an opposite non-lead side, the stator core assembly further comprising:
- (a) at least two electrical conductors designated as conductor A and conductor B, (b) the conductors positioned into the winding slots where;
n=number of phases of the stator core assembly, m=number of the winding slots in the stator core, with the winding slots numbered 1 through m, L=number of layers of the conductors A and B in the winding slots, wherein a pair of the conductors A and B define one layer, said one layer comprising;
(c) a first lead of conductor A is placed into a slot number 1 with the conductor A first lead extending from the stator lead side end, (d) a first lead of the conductor B is placed into slot number n+1 with the conductor B first lead extending from the stator lead side end, (e) the conductor A is placed into the slot number n+1 thereby forming an end loop on the non-lead side end and lying in the slot number n+1 radially shifted inwardly from the conductor B, wherein the pair of the conductors A and B lying in the same slot define a layer L, (f) the conductor A is placed into a slot number 2n+1 thereby forming an end loop on the lead side, (g) the conductor B is shifted into the slot number 2n+1 thereby forming an end loop on the non-lead side and lying in the slot number 2n+1 radially shifted inwardly from the conductor A;
wherein the conductors A and B positioned as recited herein the preceding section (a) though (g) for all the slots numbered through m+1−
n, thereby forming a first layer L, and (i) the conductor A extending from the slot number m+1−
n on the lead side end thereby defining a conductor A second lead, and the conductor B extending from the slot number 1 thereby defining a conductor B second lead.
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Abstract
A stator assembly for an electric machine, for example, for an automotive alternator. The stator assembly includes a metal core with windings installed into slots of the core. A pair of conductors of a continuous form is used for each phase of the machine. The windings are interlaced to alternate between radially inner and outer positions in each adjacent winding slot of the stator core.
19 Citations
10 Claims
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1. A stator core assembly for an alternator having a rotor assembly which presents a rotating, alternating polarity magnetic field, the stator core assembly having an annular core defining an outside diameter, an inside diameter, and a plurality of radially projecting winding slots opening to the inside diameter but terminating short of the outside diameter, the core further defining a lead side and an opposite non-lead side, the stator core assembly further comprising:
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(a) at least two electrical conductors designated as conductor A and conductor B, (b) the conductors positioned into the winding slots where;
n=number of phases of the stator core assembly, m=number of the winding slots in the stator core, with the winding slots numbered 1 through m, L=number of layers of the conductors A and B in the winding slots, wherein a pair of the conductors A and B define one layer, said one layer comprising;
(c) a first lead of conductor A is placed into a slot number 1 with the conductor A first lead extending from the stator lead side end, (d) a first lead of the conductor B is placed into slot number n+1 with the conductor B first lead extending from the stator lead side end, (e) the conductor A is placed into the slot number n+1 thereby forming an end loop on the non-lead side end and lying in the slot number n+1 radially shifted inwardly from the conductor B, wherein the pair of the conductors A and B lying in the same slot define a layer L, (f) the conductor A is placed into a slot number 2n+1 thereby forming an end loop on the lead side, (g) the conductor B is shifted into the slot number 2n+1 thereby forming an end loop on the non-lead side and lying in the slot number 2n+1 radially shifted inwardly from the conductor A;
wherein the conductors A and B positioned as recited herein the preceding section (a) though (g) for all the slots numbered through m+1−
n, thereby forming a first layer L, and(i) the conductor A extending from the slot number m+1−
n on the lead side end thereby defining a conductor A second lead, and the conductor B extending from the slot number 1 thereby defining a conductor B second lead.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Current AssigneeVisteon Global Technologies Incorporated (Visteon Corporation)
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Original AssigneeVisteon Global Technologies Incorporated (Visteon Corporation)
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InventorsNeet, Kirk E.
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Primary Examiner(s)NGUYEN, TRAN N
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Application NumberUS10/056,890Publication NumberTime in Patent Office873 DaysField of Search310/179, 310/180, 310/184, 310/198, 310/207, 310/208US Class Current310/180CPC Class CodesH02K 3/12 arranged in slotsH02K 3/28 Layout of windings or of co...Y10T 29/49009 Dynamoelectric machineY10T 29/49011 Commutator or slip ring ass...Y10T 29/49012 RotorY10T 29/49073 by assembling coil and coreY10T 29/49078 Laminated
