SU547852A1 - Magnetized electric reactor - Google Patents

Claims (1)

(54) ELECTRIC REACTOR WITH EMMAGNATION In FIG. 1 image4O1sen active part of an electrical reactor; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a variant of performing a section of a rod with a control winding section. Rods 1 and 2 magnet wire reactor (see Fig. 1 and 2) consist of separate sections 3, taken out in the form of an armor nets of cores with sections 4 located on them management Rods 1 and 2 are covered by the coils of the main winding 5 and are closed at the ends of the rods 6 and 7. Section 3 of the rod (see. Fig. H), made in a vvde armored core, contains a section obms.ki management in the form of individual coils 8, mouth .Newed with a gap of 9 between them. In the 10 cores of section 3, a non magnetic gap 11 is made. The electrical solution works as follows. By separating the rods 1 and 2 of the reactor magnetic cores into individual 3 with the control winding sections 4 located on them, it is possible to arbitrarily sub-; Magnetization of each of the sections. The main winding 5, connected to the alternating voltage source, creates a variable working current, which closes along the rods 1,2 and pm 6 and 7. Each section 4 of the control winding, fed from a constant (or ac) current source, creates In its own part, a secondary flow that closes within each section ensures optimum distribution of the magnetic resistance over the height of the rods of the magnetic conductor. The reactor magnetization is different from the site of the vehicle to the site due to the fact that the sections can either be powered from different sources of emf or have different numbers of turns when fed from the same source. 1. Electromagnetic reactor with magnetic circuit, containing magnetic cores with rods 1 1n, subdivided into separate parts, with control winding sections installed on irax, and main windings, characterized in that, in order to simplify the design, it is manufactured Reducing the consumption of active materials, each section of the rod is made in the form of a coreless core with lateral frames arranged perpendicular to the main winding axis. 2, the reactor according to claim 1, characterized in that, in order to improve the cooling conditions of the control winding, the control winding sections are made in the form of individual coils and are installed with lock-jsopoM relative to each other. 3. Reactor on PP. 1 and 2, differing from the fact that, in order to reduce the EDS. even harmonics induced in the section; The control windings, in the cores' rods, are made nonmagnetic gaps orthogonal to their axes.