Method for manufacturing reactor
First Claim
1. A method for manufacturing a reactor, comprising:
- arranging in parallel two first iron cores formed of electromagnetic steel plates laminated together, and inserting said two first iron cores through at least one coil to form an electromagnetic core and coil assembly;
arranging two second iron cores formed of electromagnetic steel plates laminated together such that said second iron cores butt against said first iron cores via core gap spacers which are elastically deformable at least in a thickness direction, to thereby form a square-shaped magnetic path;
adjusting thicknesses of said core gap spacers by imposing a pressing force in the thickness direction of said core gap spacers to elastically deform said core gap spacers;
while adjusting said thicknesses, electrically energizing said at least one coil and monitoring an electromagnetic characteristic of said electromagnetic core and coil assembly; and
when said electromagnetic characteristic attains a desired value, fixing relative positions of said first and second iron cores so as to maintain said core gap spacers at the thicknesses present when said electromagnetic characteristic attains said desired value.
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Abstract
Two sets of a combination of an iron core formed of laminated strip-shaped electromagnetic steel plates and a coil are arranged in parallel, and these are abutted via core gap spacers against two iron cores formed of laminated trapezoidal electromagnetic steel plates, so that a square-shaped magnetic path is formed. Two outside iron cores of the four iron cores are coupled and fixed with metal fittings. With such an arrangement, the coil is divided into two, with increased surface areas of the coils and therefore an improved cooling characteristic. Further, since the electromagnetic steel plates used for the iron cores can be formed into simple shapes, electromagnetic steel plates of various sizes can be easily manufactured, so that iron cores of optimum dimensions can be provided, optionally depending on the type of the reactor.
28 Citations
10 Claims
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1. A method for manufacturing a reactor, comprising:
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arranging in parallel two first iron cores formed of electromagnetic steel plates laminated together, and inserting said two first iron cores through at least one coil to form an electromagnetic core and coil assembly; arranging two second iron cores formed of electromagnetic steel plates laminated together such that said second iron cores butt against said first iron cores via core gap spacers which are elastically deformable at least in a thickness direction, to thereby form a square-shaped magnetic path; adjusting thicknesses of said core gap spacers by imposing a pressing force in the thickness direction of said core gap spacers to elastically deform said core gap spacers; while adjusting said thicknesses, electrically energizing said at least one coil and monitoring an electromagnetic characteristic of said electromagnetic core and coil assembly; and when said electromagnetic characteristic attains a desired value, fixing relative positions of said first and second iron cores so as to maintain said core gap spacers at the thicknesses present when said electromagnetic characteristic attains said desired value. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification