SU1527671A2 - Active portion of electroinduction apparatus - Google Patents

Abstract

The invention relates to electrical engineering, namely to power transformers and high voltage reactors. The purpose of the invention is to increase reliability by increasing the electrical and mechanical strength of the joint surrounding the insulation core with the end insulation. Insulation 2 between its layers 3 is inserted into the enclosing rod 1, thin dielectric layers 9 are inserted, having an L-shaped cross-section with protruding and curved ends 10 that are located between the barriers 6 of the end insulation 5. 3 Cp. f-ly, 2 ill.

Description

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The invention relates to electrical engineering, namely, to high-voltage electrical induction devices, for example, power transformers and reactors, and is an improvement to the known active part of the electric induction apparatus by means of auto power. No. 1352543.

The aim of the invention is to increase the reliability of the apparatus. by increasing the electrical and mechanical strength of the joint covering the insulation rod and the end insulation,

Figure 1 and 2 shows the active part of the electro-induction apparatus, options

The active part of the electro-induction apparatus (transformer) contains rod 1, insulation 2 enclosing the rod, consisting of layers 3 and layers 4, having a constant diameter along the entire length and set in steps so that the ends of the plates come to a diagonal and the ends of the layers protrude beyond the diagonal between the corners of the winding and the window of the magnetic core, the face insulation 5 with barriers 6 and the channels 7 winding 8 and the thin cylindrical dielectric layers 9 inserted in the insulation 2 between the layers 3, having a L-shaped cross section with a protruding and bent and winding the ends of the side 10 arranged above the insulation 2 between insulating barriers 6 5.

The dielectric layers can be wound on one end of the winding or on both, then their ends 10 are placed under insulation 2.

Thin dielectric layers 9 with ends 10 can also be introduced into the composition of layer 3 of insulation 2 (FIG. 2). In the stationary operating mode and during overvoltages in insulations 2 and 5 and in their connection, the electric field acts

The introduction of thin layers 9 with curved to the side of the winding and placed over (under) the insulation 2 with the ends 10 divides the path of the discharge diagonally into several sections, thereby increasing the electrical strength at the site

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Disconnecting the insulation irrespective of the density of the closing of the layers 3 of the insulation 2 with the barriers 6 of the insulation 5, which allows the gaps between the ends of the layers 3 and the barriers 6 of the insulation 5,

Placing the ends 10 of the introduced thin layers 9 above (below) the insulation 2 makes these ends independent of the mechanical forces of the pressing acting in the end insulation 5.

The electrical strength of the connection of the insulation 2 and 5 becomes stable and independent of the mechanical forces, movements of the end insulation and the winding and the presence of gaps between the insulation 2 and 5, which allows you to make layers from one sheet of paper.

The introduction of thin layers 9, without thickening the insulation 2, makes it possible to increase the electrical strength by a factor of 1.3, making it dependent on the mechanical forces and movements of the winding and the elements above the ends of the winding.

Claims (4)

1. The part of the electro-induction apparatus is active according to auth. No. 1352543, characterized in that, in order to increase the reliability of the apparatus by increasing the electrical and mechanical strength of the joint encompassing the insulation core and the end insulation, it is provided with cylindrical dielectric layers having an L-shaped cross-section placed in the surrounding stere - the insulation is between its layers, and the protruding ends of the dielectric layers are bent toward the winding .. 2 o Part of the apparatus according to claim 1, characterized in that the protruding ends of the layers are placed above the insulation surrounding the rod, 3 A part of the apparatus according to claim 1, about which the protruding ends of the layers are placed under the insulation covered by the rod. 4. A part of the apparatus according to claim 1, wherein the protruding ends of the layers are placed above and below the insulator enclosing the rod.