Electromagnetic work coil
First Claim
1. An improved electromagnetic work coil for removing dents from a conductive work piece, comprising:
- a. a coil with insulated conductor windings passing through a clamped stressing region;
b. at least one clamp member located on said stressing region, said clamp member including two clamp surfaces and a part in tension outside of the stressing region to tangentially compress said conductor windings in the stressing region, and;
c. said conductor windings forming symmetric paths to form symmetrically aligned magnetic poles around said clamped stressing region, said conductor windings being tapered to increase in height and width outside of the stressing region to improve thermal and electrical conductivity and decrease the magnetic field outside of the stressing region.
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Accused Products
Abstract
An improved electromagnetic work coil for use with an electromagnetic force machine that produces a pulling (tension) force on a conductive panel work piece. The electromagnetic work coil comprises a coil with insulated conductor windings passing through a clamped stressing region. The work coil further contains mating terminals and is encapsulated in a nonmagnetic housing. A clamp on the stressing region comprises two clamp surfaces and a part in tension outside of the stressing region to tangentially compress the windings in the stressing region. The preferred embodiment the winding paths around the stressing region are made symmetric to provide a centered linear pulling area with a symmetric magnetic field. The conductor windings are tapered that increase in height and width outside of the stressing region to improve thermal and electrical conductivity and decrease the magnetic field outside of the stressing region.
18 Citations
9 Claims
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1. An improved electromagnetic work coil for removing dents from a conductive work piece, comprising:
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a. a coil with insulated conductor windings passing through a clamped stressing region; b. at least one clamp member located on said stressing region, said clamp member including two clamp surfaces and a part in tension outside of the stressing region to tangentially compress said conductor windings in the stressing region, and; c. said conductor windings forming symmetric paths to form symmetrically aligned magnetic poles around said clamped stressing region, said conductor windings being tapered to increase in height and width outside of the stressing region to improve thermal and electrical conductivity and decrease the magnetic field outside of the stressing region.
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- 2. An improved electromagnetic work coil for electromagnetic dent removal with a power supply that slowly energizes and more rapidly de-energizes said work coil to inductively impart a pulling force on an adjacent conductive work piece, said work coil comprising a coil with windings that include a conductor surrounded by insulation, said work coil divided into regions with a working surface to be placed adjacent to said conductive work piece, said windings passing through at least one stressing region and at least one return path region, said windings including a first winding turn and a second winding turn, the portion of said windings passing through said return path region being wider in a direction that increases the distance from said first winding turn to said second winding turn than the portion of said windings passing through said stressing region.
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9. An improved electromagnetic work coil for electromagnetic dent removal with a power supply that slowly energizes and more rapidly de-energizes said work coil to inductively impart a pulling force on an adjacent conductive work piece, said work coil comprising a coil with windings that include a conductor surrounded by insulation, said windings including a first winding turn and a second winding turn, said windings passing through at least one stressing region and at least one return path region, the distance from said first winding turn to said second winding being greater in said return path region than the distance from said first winding turn to said second winding turn in said stressing region.
Specification