RU2031465C1 - Ferromagnetic rod for induction apparatus - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: ferromagnetic rod is assembled from individual ferromagnetic elements of hexahedral section with equal faces which are so laid that faces of one element border on faces of other one completely filling ferromagnetic rod in the form of polyhedron which reduces dimensions of rod. EFFECT: reduced dimensions of rod. 3 dwg

Description

 The invention relates to electrical engineering and is intended for use in electrical apparatus.

 A ferromagnetic rod for an induction apparatus is known, made in the form of a regular polyhedron with an even number of faces, assembled from diamond-shaped and, if necessary, square packets drawn from plates of electrical steel, the plates are all the same, have a rectangular shape and are obtained by longitudinal and transverse cutting of a roll of electrical steel [1]. The perimeter of this rod approaches the circle, which increases the fill factor.

 The disadvantage of this rod is the complexity and complexity of the manufacturing process, including a large number of repetitive operations of longitudinal and transverse cuts when cutting steel coils into plates, a set of packages of these plates.

 Closest to the proposed technical essence is a ferromagnetic rod for an induction apparatus, made of separate ferromagnetic elements, having the shape of a polyhedron, the perimeter of which approaches a circle, is composed of ferromagnetic elements of circular cross section having the same diameter and same length [2]. Ferromagnetic elements of circular cross section are cut from a wire of circular cross section. At the ends of the rod, the ferromagnetic elements are fastened with a bandage connection.

 The disadvantage of the prototype is the presence of air gaps between the wires, which increases the dimensions of the rod, and also complicates the manufacture.

 To eliminate this drawback, the proposed ferromagnetic rod is made in the form of a hexagon drawn from ferromagnetic hexagonal elements with equal cross-sectional faces, with a face of another hexagonal element adjacent to each face of the internal hexagonal element. This embodiment of the elements increases the fill factor of the rod with steel in relation to the elements of circular cross section.

 In FIG. 1-3 shows the proposed ferromagnetic rod.

 The ferromagnetic rod 1 is made of ferromagnetic elements of a hexagonal cross-section 2, covered with an insulating layer 3. At the ends of the rod 1, the ferromagnetic elements 2 are fastened with retaining joints 4. The ferromagnetic elements 2 are made of hexagonal cross-section wire. In the design (see Fig. 1) the rod has a higher fill factor with steel than in the design of the prototype. In this case, the neighboring ferromagnetic elements of a hexagonal section have a larger contact surface than the elements of a circular section (as in the prototype).

 Using the invention allows to reduce the dimensions of the rod, as well as the complexity of manufacturing the rods in the form of a polyhedron, the perimeter of which approaches the circle by eliminating the longitudinal cutting of steel strips into individual elements during their manufacture.

Claims (1)

 A FERROMAGNETIC ROD FOR AN INDUCTION APPARATUS, having the shape of a polyhedron made of separate ferromagnetic elements, characterized in that the ferromagnetic elements of which the rod is made have a hexagonal cross-section with equal faces, and a face of another hexagonal element adjoins each face of each of the internal hexagonal elements.

Images