Injection shuttle system
First Claim
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1. A method of fabricating a stator core assembly for a dynamoelectric machine wherein the core assembly includes a slotted core having a bore and having winding turns disposed thereon, said method comprising:
- supporting a slotted core and injection tooling at spaced apart locations on a shuttle means;
moving the shuttle means for positioning and aligning the injection tooling with a coil winding machine at a coil loading station;
manipulating the injection tooling relative the coil winging machine for disposing winding turns developed by the winding machine at predetermined locations on the injection tooling;
moving the shuttle means for positioning the injection tooling with winding turns thereon at a transfer station;
transferring the injection tooling from the shuttle means to a wedge guide housing positioned on an indexing table of a turntable arrangement;
moving the indexing table for positioning the wedge guide housing having the injection tooling received therein to a wedge making station;
transferring insulating wedges of the wedge guide housing;
moving the indexing table for aligning the injection tooling and wedge guide housing with an injection mechanism at a coil injection station;
removing the slotted core from the shuttle means and interfitting the core with the injection tooling at the injection station;
retaining the core in the interfitting relationship with the injection tooling;
activating the injection mechanism for transferring the insulating wedges from the wedge guide housing and the winding turns from the injection tooling axially along and into axially extending slots of the core;
removing the injection tooling from the interfitting relationship with the core and transferring the core with winding turns inserted therein away from the injection station; and
moving the injection tooling with winding turns removed therefrom to an unloading station for removal from the indexing table.
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Abstract
An injection shuttle system is disclosed for fabricating stator core assemblies. Injection tooling and a stator core are selected and positioned on a shuttle means at a selection station for moving to coil loading stations and a transfer station. The injection tooling is positioned, aligned and manipulated relative to a winding machine at each coil loading station for disposing winding turns thereon. At the transfer station, the injection tooling is transferred to a wedge guide housing of a turntable arrangement which includes wedge making and injection stations. A stator height adjustment arrangement is provided for adjusting the wedge making and injection stations in accordance with the axial length of the core. The injection tooling is moved or indexed to the wedge making stations where insulating wedges are fabricated and inserted into wedge guides of the wedge guide housing. The injection tooling is then moved to the injection station where the core is interfitted with the tooling by a core transfer assembly. An injection mechanism at the injection station then injects or transfers the winding turns and insulating wedges into axially extending slots of the core. The end turns of the windings are then moved away from the bore of the core by an end turn separator. The injection tooling with winding turns removed therefrom is indexed or moved to an unloading station where it is transferred from the turntable arrangement to a shuttle means for subsequent transfer back to the selection station.
36 Citations
19 Claims
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1. A method of fabricating a stator core assembly for a dynamoelectric machine wherein the core assembly includes a slotted core having a bore and having winding turns disposed thereon, said method comprising:
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supporting a slotted core and injection tooling at spaced apart locations on a shuttle means; moving the shuttle means for positioning and aligning the injection tooling with a coil winding machine at a coil loading station; manipulating the injection tooling relative the coil winging machine for disposing winding turns developed by the winding machine at predetermined locations on the injection tooling; moving the shuttle means for positioning the injection tooling with winding turns thereon at a transfer station; transferring the injection tooling from the shuttle means to a wedge guide housing positioned on an indexing table of a turntable arrangement; moving the indexing table for positioning the wedge guide housing having the injection tooling received therein to a wedge making station; transferring insulating wedges of the wedge guide housing; moving the indexing table for aligning the injection tooling and wedge guide housing with an injection mechanism at a coil injection station; removing the slotted core from the shuttle means and interfitting the core with the injection tooling at the injection station; retaining the core in the interfitting relationship with the injection tooling; activating the injection mechanism for transferring the insulating wedges from the wedge guide housing and the winding turns from the injection tooling axially along and into axially extending slots of the core; removing the injection tooling from the interfitting relationship with the core and transferring the core with winding turns inserted therein away from the injection station; and moving the injection tooling with winding turns removed therefrom to an unloading station for removal from the indexing table. - View Dependent Claims (2, 3, 4, 5)
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6. An apparatus for moving dynamoelectric machine stator cores and injection tooling for use in fabricating stator core assemblies, said apparatus comprising:
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a shuttle means for supporting a slotted core and injection tooling at spaced apart locations thereon; a fetching assembly for engaging the shuttle means, said fetching assembly being operative to move the injection tooling to a predetermined position relative to an injection tooling transfer assembly; a turntable arrangement including an indexing table, at least one wedge guide housing, at least one wedge making station and at least one coil injection station; said injection tooling transfer assembly being operative to transfer the injection tooling from the shuttle means into the at least one wedge guide housing; said indexing table being operative to move the at lease one wedge guide housing with the injection tooling therein into an alignment position at the at least one wedge making station and the at least one coil injection station; means for transferring insulating wedges to the at least one wedge guide housing at the wedge making station; a core transfer assembly including at least one core holder for supporting the core in a predetermined position and a core retaining means for retaining the core in the predetermined position;
said core transfer assembly being operative to move the core to the injection station and into an interfitting relationship with the injection tooling after the injection tooling has been moved into an aligned position at the injection station by the indexing table;an injection mechanism located at the injection station being operative to transfer winding turns disposed on the injection tooling and the insulating wedges disposed in the wedge guide housing along and into axially extending slots of the core; the core transfer assembly being operative to move the core away from the injection station after the winding turns have been transferred to the core slots; and the injection tooling transfer assembly being operative to remove the injection tooling from the wedge guide housing at an unloading station and to move the injection tooling away from the indexing table. - View Dependent Claims (7, 8, 9, 10)
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11. An apparatus for fabricating a stator core assembly for a dynamoelectric machine wherein the core assembly includes a slotted core having a bore and having winding turns disposed thereon, said apparatus comprising:
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a shuttle means for supporting a slotted core and injection tooling at spaced apart locations thereon; a first fetching assembly for engaging the shuttle means, said first fetching assembly being operative to move the injection tooling to a predetermined position relative a coil winding machine at a coil loading station; an indexing mechanism located at the coil loading station operative to manipulate the injection tooling relative the coil winding machine for disposing winding turns on the injection tooling; a second fetching assembly for engaging the shuttle means, said second fetching assembly being operative to move the injection tooling to a predetermined position relative to an injection tooling transfer assembly; a turntable arrangement including an indexing table, at least one wedge guide housing, at least one wedge making station and at least one coil injection station; said injection tooling transfer assembly being operative to transfer the injection tooling from the shuttle means into the at least one wedge guide housing; said indexing table being operative to move the at least one wedge guide housing with the injection tooling therein into an alignment position at the at least one wedge making station and the at least one coil injection station; means for transferring insulating wedges to the at least one wedge guide housing at the at least one wedge making station; a core transfer assembly including at least one core holder for supporting the core in a predetermined position and a core retaining means for retaining the core in the predetermined position;
said core transfer assembly being operative to move the core to the injection station and into an interfitting relationship with the injection tooling after the injection tooling has been moved into an aligned position at the injection station by the indexing table;an injection mechanism located at the injection station being operative to transfer winding turns disposed on the injection tooling and the insulating wedges disposed in the wedge guide housing along and into axially extending slots of the core; the core transfer assembly being operative to move the core away from the injection station after the winding turns have been transferred to the core slots; and the injection tooling transfer assembly being operative to remove the injection tooling from the wedge guide housing at an unloading station and to move the injection tooling away from the indexing table. - View Dependent Claims (12, 13, 14, 15)
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16. A method of fabricating a stator core assembly for a dynamoelectric machine wherein the core assembly includes a slotted core having a bore and having winding turns disposed thereon, said method comprising:
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moving a matched set of parts including slotted core and injection tooling to a coil loading station; loading winding coils into the injection tooling at the coil loading station; moving the matched set of parts of a transfer station and transferring the injection tooling from the matched set to an indexing support; moving the indexing support and thereby positioning the injection tooling at a coil injection station; moving the slotted core of the matched set into interfitting relation with the injection tooling at the coil injection station; retaining the core in the interfitting relationship with the injection tooling; injecting the winding turns from the injection tooling into slots of the core; and separating the injection tooling and the core, moving the core away from the tooling, and removing the injection tooling from the indexing support.
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17. An apparatus for moving dynamoelectric machine stator cores and injection tooling for use in fabricating stator core assemblies, said apparatus comprising:
- shuttle means for supporting a matched set comprising a slotted core and injection tooling;
a mechanism for aligning the shuttle means at a coil loading station;
an indexing table having means thereon for accommodating the injection tooling; and
transfer means for transferring the injection tooling from the shuttle means to the means on the indexing table for accommodating the injection tooling.
- shuttle means for supporting a matched set comprising a slotted core and injection tooling;
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18. An apparatus for fabricating a stator core assembly for a dynamoelectric machine comprising slotted core having a bore and having winding turns disposed thereon, said apparatus comprising:
- shuttle means for supporting a matched set of parts comprising a slotted core and injection tooling at spaced apart locations thereon;
means for loading winding coils into the injection tooling while the injection tooling is supported on the shuttle means;
means for moving the injection tooling from the shuttle means while leaving the slotted core on the shuttle means; and
means for moving the slotted core onto the injection tooling after the injection tooling is moved from the shuttle means. - View Dependent Claims (19)
- shuttle means for supporting a matched set of parts comprising a slotted core and injection tooling at spaced apart locations thereon;
Specification
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Current AssigneeGeneral Electric Company
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Original AssigneeGeneral Electric Company
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InventorsSmith, Dallas F., Lauer, Richard E.
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Primary Examiner(s)Hall, Carl E.
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Application NumberUS05/857,222Time in Patent Office512 DaysField of Search29/596, 29/606, 29/732, 29/734, 29/736, 140/92.1US Class Current29/596CPC Class CodesH02K 15/0018 Applying slot closure means...H02K 15/068 StrippersY10T 29/49009 Dynamoelectric machineY10T 29/53152 Means to position insulationY10T 29/53161 including deforming means
