Dual-function magnetic structure for toroidal plasma devices
First Claim
1. In a tokamak device for producing a plasma with a high ion temperature in the collisionless regime, said device including axially disposed central iron core, and a plurality of toroidal magnet coils defining a main torus, the improvement comprising a respective coil containment ring encompassing each of said torus magnet coils, each of said rings comprising a plurality of plastic coated, laminated iron sheets with alternate sheets being cut at different places so that no electrical path around the circumference of each sheet is possible, a plurality of insulated pins inserted through all of said laminations to prevent shearing apart thereof under the radial forces developed in its associated magnet coil, said laminated iron sheets starting from the center of the stack and on the side nearest the major axis of the torus being cut progressively smaller so that a wedge-like cross section is formed, all of said cross sections constituting a portion of said central iron core, a plurality of respective extra laminated iron shims positioned between each of the respective wedge-like cross sections of adjacent stacked laminations, all of said extra laminated iron shims constituting the remaining portion of said central iron core, each of said laminated iron sheets of each stack provided with a respective projection at the top and bottom thereof and extending beyond said wedge-like cross section, and respective compression rings encompassing said top and bottom projections of all of said stacked laminations, each of said stacks of laminated iron sheets serving not only as a respective magnet coil containment ring but also as a respective magnetic return yoke for said central iron core.
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Abstract
This invention relates to a support system wherein the iron core and yoke of the plasma current system of a tokamak plasma containment device is redesigned to support the forces of the magnet coils. The containment rings, which occupy very valuable space around the magnet coils, are utilized to serve as yokes for the core such that the conventional yoke is eliminated. The overall result is an improved aspect ratio, reduction in structure, smaller overall size, and improved access to the plasma ring.
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Citations
4 Claims
- 1. In a tokamak device for producing a plasma with a high ion temperature in the collisionless regime, said device including axially disposed central iron core, and a plurality of toroidal magnet coils defining a main torus, the improvement comprising a respective coil containment ring encompassing each of said torus magnet coils, each of said rings comprising a plurality of plastic coated, laminated iron sheets with alternate sheets being cut at different places so that no electrical path around the circumference of each sheet is possible, a plurality of insulated pins inserted through all of said laminations to prevent shearing apart thereof under the radial forces developed in its associated magnet coil, said laminated iron sheets starting from the center of the stack and on the side nearest the major axis of the torus being cut progressively smaller so that a wedge-like cross section is formed, all of said cross sections constituting a portion of said central iron core, a plurality of respective extra laminated iron shims positioned between each of the respective wedge-like cross sections of adjacent stacked laminations, all of said extra laminated iron shims constituting the remaining portion of said central iron core, each of said laminated iron sheets of each stack provided with a respective projection at the top and bottom thereof and extending beyond said wedge-like cross section, and respective compression rings encompassing said top and bottom projections of all of said stacked laminations, each of said stacks of laminated iron sheets serving not only as a respective magnet coil containment ring but also as a respective magnetic return yoke for said central iron core.
Specification