SU1429180A1 - Shock-type test transformer - Google Patents

Abstract

The invention relates to electrical engineering and can be used in transformers for testing switching equipment and transformers for short circuit resistance. The aim of the invention is to increase the electrical strength of the insulation by reducing the inhomogeneity of the electric field. The test impact transformer contains a magnetically conduit 2 located in a tank. Low-voltage and high-voltage windings located on the magnetic core are made so that the pairs of disk coils of one winding 3 alternate along the height of the magnetic core rod with pairs of disk coils of the other winding 4. Ring-shaped screens 5,6 are mounted concentrically to each pair of coils, which allows increasing the strength of the insulation gaps by reducing the intensity of the electric field. 2 Il. W

Description

The invention relates to electrical engineering and can be used in transformers for testing switching equipment and transformers for resistance to short circuits.

The aim of the invention is to increase the electrical strength of the insulation path (to reduce the inhomogeneity of the electric field,

Fig. 1 shows a part of a shock transformer, a section} in Fig. 2 is a pair of disk coils, top view.

The test shock transformer (Fig. 1) contains a tank 1 of the magnetic wire 2, a pair of low voltage winding coils 3, a pair of high voltage winding 4 coils, annular shields 5 and 6, internal transitions 7 between the coils, forming a pair, connected to the inner ring shields, in which there is a gap 8 in the conductive layer, which prevents the formation of a short-circuited coil. Electrical insulation between the areas of the annular shields attached to the outermost turns 9 and 10 of the pair of coils is provided by disruptions 11 in the conductive layer of the annular shields 6.

The transformer works as follows.

By using high-voltage windings 4, the transformer is connected to a pre-shorted object, and by winding 3 to an excited shock generator, as a result of which an electromechanical transient occurs in the generator-transformer-test object system.

Due to the installation concentric with each pair of coils along the inner and outer diameters of the windings of annular screens with arcuate cross-section, facing a cylindrical base

to the coils attached to the extreme turns of the coils, the electric field strength in the insulating gaps decreases significantly, their strength increases and the transformer multiplies these transients many times.

The use of the invention makes it possible to increase the voltage of the shock transformers up to 330 kV and more with a slight additional cost for their manufacture.

Claims (1)

Invention Formula A test impact transformer containing a magnetic circuit placed in the tank with pairs of coils alternating along the axis of the core of the magnetic circuit with internal transitions of the low-voltage and high-voltage windings, characterized in that, in order to increase the electrical strength of the insulation by reducing the non-uniformity of the electric field, each pair of low-voltage and high-voltage coils equipped with two capacitive annular screens of segmented section with a conductive layer installed concentrically along the inner and the outer winding-forming cylindrical side to the coils, the electrically conductive layer of the inner screen has one gap and is electrically connected to the inner junction of a pair of coils, one half of the electrically conductive layer of the outer screen, which has two diametrically opposite breaks, is electrically connected to the extreme coil of one katzgpsi and the other half of the electrically conductive layer is electrically connected to the outermost / coil of the other coil forming a pair. eleven FIG. 2