Process for electrodepositing mica on coil or bar connections and resulting products
First Claim
Patent Images
1. A process for providing a continuous insulating covering on an electrical conductor, which process comprises the steps of:
- wrapping a portion of the length of the conductor with porous mica tape;
immersing a bare unwrapped portion of the conductor and the adjacent wrapped portion thereof in an aqueous electrodeposition composition consisting essentially of 5-35% of particulated mica, 0.2-2% of a water soluble anionic resin binder as calculated in resin solids, 0.001-0.20% of an electrolyte, up to 0.3% of a non-ionic surfactant and a polar solvent;
electrodepositing said composition on the bare unwrapped portion of the conductor and the adjacent wrapped portion;
forming a continuous dry micaceous coating on the bare unwrapped and adjacent wrapped portions, said coating being porous and containing a sufficient amount of binder to hold mica particles together;
impregnating the porous coating with an impregnative resin varnish; and
subjecting the impregnated coating to an elevated temperature bake to cure the resin varnish.
1 Assignment
0 Petitions
Accused Products
Abstract
A process for electrodepositing mica and a water soluble anionic resin binder, such as a modified polyester resin, is disclosed as a means for applying a heavy coating of a high-voltage, mica-bearing electrical insulation onto uninsulated and porous mica tape-insulated portions of electrical connections in dynamoelectric machines. The electrodeposited mica coating is subsequently impregnated with a suitable resin, such as an epoxy or polyester resin, concurrently with the impregnation of other conventional insulations in the machine. Alternatively, deposition and impregnation of the connection insulation can be performed prior to installing the connection into the machine.
50 Citations
4 Claims
-
1. A process for providing a continuous insulating covering on an electrical conductor, which process comprises the steps of:
-
wrapping a portion of the length of the conductor with porous mica tape; immersing a bare unwrapped portion of the conductor and the adjacent wrapped portion thereof in an aqueous electrodeposition composition consisting essentially of 5-35% of particulated mica, 0.2-2% of a water soluble anionic resin binder as calculated in resin solids, 0.001-0.20% of an electrolyte, up to 0.3% of a non-ionic surfactant and a polar solvent; electrodepositing said composition on the bare unwrapped portion of the conductor and the adjacent wrapped portion; forming a continuous dry micaceous coating on the bare unwrapped and adjacent wrapped portions, said coating being porous and containing a sufficient amount of binder to hold mica particles together; impregnating the porous coating with an impregnative resin varnish; and subjecting the impregnated coating to an elevated temperature bake to cure the resin varnish. - View Dependent Claims (2, 3)
-
-
4. The process for insulating a multiple-coil stator of a dynamoelectric machine which includes the steps of wrapping the coils and portions of the coil leads with porous mica tape, joining the coils in series by securing the respective coil leads together in pairs as coil connections, immersing the stator in an aqueous electrodeposition bath so that bare unwrapped portions and adjacent porous mica tape-covered portions of the coil leads are submerged in the bath, and applying an anodic potential and thereby electrodepositing on both the bare portions and the adjacent wrapped portions of the coil leads a coating of substantially uniform thickness greater than about 50 mils, said aqueous bath consisting essentially of 5-35% of particulated mica, 0.2-2% of a water soluble polyester resin binder as calculated in resin solids, 0.001-0.20% of an electrolyte, up to 0.3% of a non-ionic surfactant and the remainder water.
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeGeneral Electric Company
-
Original AssigneeGeneral Electric Company
-
InventorsElton, Richard K., Schultz, William R. Jr.
-
Primary Examiner(s)Niebling, John F.
-
Assistant Examiner(s)Boggs, Jr., B. J.
-
Application NumberUS06/752,418Time in Patent Office494 DaysField of Search204/181.1, 204/181.5, 204/181.6, 524/441, 524/601, 524/901, 524/449, 524/556, 524/612, 428/363, 428/454, 523/401, 523/402, 523/440US Class Current204/485CPC Class CodesC25D 13/02 with inorganic material
