NORMAL WINDING METHOD OF CONCENTRATED WINDING STATOR CORE

PROBLEM TO BE SOLVED: To tightly and normally wind wires fed from nozzles to a bobbin over the whole wound layer. SOLUTION: In this concentrated winding stator core, a coil is concentratedly wound to one slot by winding the wires 2 fed from the nozzles 11, 12 to the bobbin 3. In a normal winding met...

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Hauptverfasser:	SHINMEI AKIHIDE, SUENAGA SATORU
Format:	Patent
Sprache:	eng
Schlagworte:	CONVERSION OR DISTRIBUTION OF ELECTRIC POWER DYNAMO-ELECTRIC MACHINES ELECTRICITY GENERATION
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creator	SHINMEI AKIHIDE SUENAGA SATORU
description	PROBLEM TO BE SOLVED: To tightly and normally wind wires fed from nozzles to a bobbin over the whole wound layer. SOLUTION: In this concentrated winding stator core, a coil is concentratedly wound to one slot by winding the wires 2 fed from the nozzles 11, 12 to the bobbin 3. In a normal winding method of the stator core, the nozzles 11, 12 are moved to the axial direction of the bobbin accompanied by the winding of the wires 2 to the bobbin 3, and even if the number of the wound layers of the wires 2 in the bobbin 3 is increased, the nozzles 11, 12 are axially moved in timing that a supply angle θs formed by the wires 2 to be fed and external peripheral faces (Pf1, Pf2, Pg1 and Pg2) of the bobbin 3 reaches a certain value ("0°" for example). Here, a face inclination angle θi at which the external peripheral face of the bobbin 3 forming the supply angle θs between the wires 2 is directed to a vertical direction is changed at each wound layer of the wires 2 in timing that the nozzles 11, 12 are moved to the axial direction of the bobbin. COPYRIGHT: (C)2008,JPO&INPIT
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SOLUTION: In this concentrated winding stator core, a coil is concentratedly wound to one slot by winding the wires 2 fed from the nozzles 11, 12 to the bobbin 3. In a normal winding method of the stator core, the nozzles 11, 12 are moved to the axial direction of the bobbin accompanied by the winding of the wires 2 to the bobbin 3, and even if the number of the wound layers of the wires 2 in the bobbin 3 is increased, the nozzles 11, 12 are axially moved in timing that a supply angle θs formed by the wires 2 to be fed and external peripheral faces (Pf1, Pf2, Pg1 and Pg2) of the bobbin 3 reaches a certain value ("0°" for example). Here, a face inclination angle θi at which the external peripheral face of the bobbin 3 forming the supply angle θs between the wires 2 is directed to a vertical direction is changed at each wound layer of the wires 2 in timing that the nozzles 11, 12 are moved to the axial direction of the bobbin. 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SOLUTION: In this concentrated winding stator core, a coil is concentratedly wound to one slot by winding the wires 2 fed from the nozzles 11, 12 to the bobbin 3. In a normal winding method of the stator core, the nozzles 11, 12 are moved to the axial direction of the bobbin accompanied by the winding of the wires 2 to the bobbin 3, and even if the number of the wound layers of the wires 2 in the bobbin 3 is increased, the nozzles 11, 12 are axially moved in timing that a supply angle θs formed by the wires 2 to be fed and external peripheral faces (Pf1, Pf2, Pg1 and Pg2) of the bobbin 3 reaches a certain value ("0°" for example). Here, a face inclination angle θi at which the external peripheral face of the bobbin 3 forming the supply angle θs between the wires 2 is directed to a vertical direction is changed at each wound layer of the wires 2 in timing that the nozzles 11, 12 are moved to the axial direction of the bobbin. 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SOLUTION: In this concentrated winding stator core, a coil is concentratedly wound to one slot by winding the wires 2 fed from the nozzles 11, 12 to the bobbin 3. In a normal winding method of the stator core, the nozzles 11, 12 are moved to the axial direction of the bobbin accompanied by the winding of the wires 2 to the bobbin 3, and even if the number of the wound layers of the wires 2 in the bobbin 3 is increased, the nozzles 11, 12 are axially moved in timing that a supply angle θs formed by the wires 2 to be fed and external peripheral faces (Pf1, Pf2, Pg1 and Pg2) of the bobbin 3 reaches a certain value ("0°" for example). Here, a face inclination angle θi at which the external peripheral face of the bobbin 3 forming the supply angle θs between the wires 2 is directed to a vertical direction is changed at each wound layer of the wires 2 in timing that the nozzles 11, 12 are moved to the axial direction of the bobbin. COPYRIGHT: (C)2008,JPO&INPIT</abstract><oa>free_for_read</oa></addata></record>
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subjects	CONVERSION OR DISTRIBUTION OF ELECTRIC POWER DYNAMO-ELECTRIC MACHINES ELECTRICITY GENERATION
title	NORMAL WINDING METHOD OF CONCENTRATED WINDING STATOR CORE
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