SU951424A1 - Powerful high-voltage transformer - Google Patents

Description

(54) POWERFUL HIGH-VOLTAGE TRANSFORMER

Claims (2)

The invention relates to electrical engineering. In particular, to high-power high-voltage transformers on toroidal small pipelines. A winding is known on the toroidal magnetic core, made of composite turns, connected to each other f 1 j. The disadvantage of this winding is the impossibility of making a large cross-section from a wire, as well as a complete lack of repair of the winding, since its coils are formed directly on the Juprovod magnesium and the ends of the coils are welded. Closest to the invention in technical essence and the achieved effect is a powerful high-voltage transformer, the winding of which is located on a toroidal magnetic circuit and is made with a large cross-section wire on machines for toroidal power. The disadvantages of the known transformer are low workability due to the low productivity of the machines, low reliability and the lack of assembly-disassembly. The purpose of the invention is to improve manufacturability by making the winding separate from the magnetic core, increasing the reliability, ease of assembly and disassembly, and improving the transformer cooling. The goal is achieved by the fact that in a well-known powerful high-voltage transformer containing a winding located on a toroidal magnetic core, each turn of the winding is made of composite identical semi-coils, the horses of the half-coil are mixed by an angle equal to half of the winding pitch, while the half of the coil is turned into opposite sides of the winding pitch, and the opposite half of the winding are turned into opposite ends. and are connected in series with two adjacent semi-threads, the half-winding windings are hollow. FIG. 1 shows a transformer; in fig. 2 - side view, section; in fig. 3 variant docking semi-turns. A powerful high-voltage transformer contains a winding 1, consisting of half-drills 2, the sleeves of each half-roll are turned in opposite directions at an angle equal to half of the winding pitch, and are connected in series with two adjacent half-winds with the help of, for example, nuts 3. Nuts 3 can be placed with a torde magnetic core 4, as well as on the inner and outer cylindrical surfaces, depending on the size of the cores 5, of which the magnetic core is composed. The cores 5 are mounted on the brace 6, between the core there are spacers 7, fixed with the aid of bolts 8 and onlays 9. The winding is equipped with terminals 1O, and if necessary, with taps. Laying winding 1 is carried out as follows. The cores 5 are mounted and fixed on the follower 6, then semi-coils 2 are placed in the grooves on the gaskets 7 and connected with the cords of two adjacent floatworms 2 with the help of the 3rd right and left-hand nuts, cap nut or when soldering. In order to increase the cooling efficiency, the half-turn is hollowed out with openings for the passage of the refrigerant. The presence of separate half windings allows for powerful transformers to completely reject unmanufacturing manual labor, since the winding of a wire replaces the laying of individual half shells. This is 1.5 times higher productivity and manufacturability of the product. ; The use of separate semi-turns of wire or large-section tubes, which were prepared in advance, increases the reliability of the insulation, since it eliminates the possibility of damage to it at the points of bending of the wires. Semi-turns and magnetic cores are easily assembled and disassembled and transported unassembled. The presence of internal cooling significantly increases the technical and economic indices of the winding and, at SO, 40% reduces the coolant consumption in comparison with the known structures. Claim 1. Powerful high-voltage transformer containing a winding located on a toroidal magnetic core, characterized in that, in order to improve the manufacturability by making the washing separately from the magnetic core, increasing reliability and ease of assembly and disassembly, each turn of the winding is filled on the same composite half-turns, the ends of each half-turn are shifted by an angle equal to half the step of winding, while the ends of the half-turns are turned in opposite directions and are connected in series with two mind the adjacent semi-threads. 2. A power high-voltage transformer according to claim 1, characterized in that, for the purpose of better cooling, the half-winding windings are hollow. Sources of information taken into account in the examination 1. UK Patent No. 1173667, cl. H 01 F 27/30, 1969. 2. USSR author's certificate number 531712, cl. H 01 F 19/08, 1975.