Methods of manufacturing dynamoelectric machine stators
First Claim
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1. A method of manufacturing a metallic magnetizable core of a dynamoelectric machine stator comprised of a plurality of assembled together metallic platelike laminations jointly defining an outer peripheral surface of the core, the method comprising the steps of:
- juxtaposing and aligning the metallic platelike laminations in stacked relation along an axis;
shaping the core by squaring the opposite end faces of the core in the stacked relation of the laminations;
establishing a plurality of preselected separated pressure regions angularly spaced about the axis of the laminations in the stacked relation thereof and between the opposite end faces of the core by compressing the core at such preselected angularly spaced apart regions;
heating the core;
flowing a bead of hardenable adhesive material downwardly in at least one column generally along a preselected flow path on a wall means for supporting the at least one bead of the hardenable adhesive material while the wall means and core are supported in sufficiently spaced apart relation that the bead and core are out of contact with one another;
laterally relatively moving the heated core and wall means with respect to the axis of the laminations;
touching a fractional portion of the perimeter of the core peripheral surface along at least one preselected axial contact length thereof and angularly between at least some of the pressure regions with a selected contact surface of the at least one bead of the hardenable adhesive material flowing downwardly in the preselected flow path thereof on the wall means and maintaining the core peripheral surface and the wall means in a predetermined spaced apart relation;
transferring by capillary action a part of the hardenable adhesive material in the at least one bead thereof into an adhesive region of the core generally adjacent the core peripheral surface between at least some next adjacent laminations along the at least one preselected axial contact length of the core peripheral surface upon the touching thereof with the selected contact surface of the at least one bead; and
disestablishing the preselecting separated pressure regions of the core.
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Abstract
A method of presenting a hardenable adhesive material on a surface of a flow wall for supporting at least one beaded column of the hardenable adhesive material adapted in part for transfer by capillary action to a magnetic core for use in an electrical inductive device. In this method, the hardenable adhesive material is directed onto the surface of the flow wall, and the hardenable adhesive material flows downwardly in the at least one beaded column along the surface of the flow wall. The flow of the at least one beaded column of the hardenable adhesive material is then redirected angularly away from the surface of the flow wall.
19 Citations
5 Claims
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1. A method of manufacturing a metallic magnetizable core of a dynamoelectric machine stator comprised of a plurality of assembled together metallic platelike laminations jointly defining an outer peripheral surface of the core, the method comprising the steps of:
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juxtaposing and aligning the metallic platelike laminations in stacked relation along an axis; shaping the core by squaring the opposite end faces of the core in the stacked relation of the laminations; establishing a plurality of preselected separated pressure regions angularly spaced about the axis of the laminations in the stacked relation thereof and between the opposite end faces of the core by compressing the core at such preselected angularly spaced apart regions; heating the core; flowing a bead of hardenable adhesive material downwardly in at least one column generally along a preselected flow path on a wall means for supporting the at least one bead of the hardenable adhesive material while the wall means and core are supported in sufficiently spaced apart relation that the bead and core are out of contact with one another; laterally relatively moving the heated core and wall means with respect to the axis of the laminations; touching a fractional portion of the perimeter of the core peripheral surface along at least one preselected axial contact length thereof and angularly between at least some of the pressure regions with a selected contact surface of the at least one bead of the hardenable adhesive material flowing downwardly in the preselected flow path thereof on the wall means and maintaining the core peripheral surface and the wall means in a predetermined spaced apart relation; transferring by capillary action a part of the hardenable adhesive material in the at least one bead thereof into an adhesive region of the core generally adjacent the core peripheral surface between at least some next adjacent laminations along the at least one preselected axial contact length of the core peripheral surface upon the touching thereof with the selected contact surface of the at least one bead; and disestablishing the preselecting separated pressure regions of the core. - View Dependent Claims (2)
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3. A method of manufacturing a magnetizable dynamoelectric machine stator core comprised of a plurality of assembled together metallic platelike laminations stacked along an axis and defining an outer peripheral surface of the core having a predetermined perimeter, comprising bonding together next adjacent ones of such laminations, the method including transferring by capillary action hardenable adhesive material from at least one flowing bead of such material into the stator core to effect bonding of a plurality of adjacent ones of the laminations, the method comprising the steps of:
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flowing the hardenable adhesive material downwardly in at least one flowing bead along at least one preselected flow path having a selected contact surface width of only a fraction of the total perimeter of the outer peripheral surface of the core; and touching together at least a part of the at least one bead and the core so that at least one stripe of adhesive material is applied to the core. - View Dependent Claims (4)
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5. A method of operating apparatus including a source of hardenable adhesive material and a flow wall for supporting at least one flowing bead of the adhesive material with a part of the adhesive material being adapted to be transferred by capillary action from the flowing bead into a laminated magnetic core for use in an electrical induction device, the method comprising the steps of:
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circulating the hardenable adhesive material from its source to the flow wall; forming the flowing bead of adhesive material when the hardenable adhesive material is circulated to the flow wall; and flowing the at least one bead downwardly along the flow wall in preparation for transferring part of the adhesive material into the laminated magnetic core by capillary action; and touching together a peripheral portion of the core along a preselected axial contact length thereof and the at least one bead by moving at least one of the flow wall and the core toward the other thereof.
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Specification
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Current AssigneeGeneral Electric Company
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Original AssigneeGeneral Electric Company
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InventorsRediger, Alvin L.
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Primary Examiner(s)Hall, Carl E.
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Application NumberUS06/183,176Time in Patent Office1,652 DaysField of Search29/596, 29/598, 29/605, 310/216-218, 310/42, 310/43, 310/45, 156/578, 156/574, 156/290, 156/291, 156/295, 118/429, 118/DIG. 2US Class Current29/596CPC Class CodesH02K 15/024 with slotsY10T 156/1798 with liquid adhesive or adh...Y10T 29/49009 Dynamoelectric machine
