CS266449B1 - Capacitive circle of transformer winding, especially high voltage - Google Patents

Abstract

The design of the proposed solution is based on an unusual technology for producing capacitive loops of the control winding. The essence of the solution is that the capacitive loop is made of a twisted thin-walled tube of a circular profile made of non-magnetic metal, which is filled with a hardened non-conductive material and whose ends are connected by a pin made of insulating material fitted on both sides. The tube filling can be any hardenable non-conductive material with mechanical resistance, for example, multi-component resin, fine concrete mix, etc.

Description

The invention relates to the capacitive ring of the control winding ^- transformers, in particular of very high voltage.

For the control winding, the capacitive rings have hitherto been usually made of sheets of laminated and glued material, for example hardened paper, which are then turned into the shape of a flattened ring with rounded edges. The diameter of the capacitive circle and the radii of curvature of its edges are calculated from the voltage parameters of the proposed machine so that the values of the gradients on the outer edges of the control winding suit its arrangement. When designing a capacitive ring, it is also taken into account that its construction meets the required mechanical strength against the effects of short-circuit currents. The machined ring of non-conductive material is further provided with a conductive surface layer with a lead so as to form an open thread. For this purpose, for example, an aluminum strip is used to wrap the ring. In the construction of transformers for very high voltages, from approximately 220 kV, the capacitive rings of the control winding are narrow but large in diameter, which creates the problem of machining their non-conductive core. Under normal conditions, the rings cannot be attached to the carousel in order to form the desired edge rounding.

This problem is solved by the capacitive ring of the control winding of the transformers _f, in particular of the very high voltage according to the invention, which consists of a non-conductive core and a conductive sheath with a terminal which forms an open thread. The essence of the invention is that the conductive sheath is a twisted thin-walled tube of circular profile made of non-magnetic metal, which is filled with a hardened non-conductive material and whose ends are firmly connected by a double-sided pin made of insulating material.

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The capacitive ring according to the invention achieves the desired rounding of the outer edges of the control winding only by selecting a suitable diameter of the thin-walled metal tube, thus eliminating the problem of difficult shaping of its non-conductive core. With an overall reduction in the laboriousness of the actual production of capacitive rings, a higher resistance of the control winding against the effects of short-circuit currents is achieved.

An exemplary capacitive ring according to the invention is drawn in partial section in the accompanying drawing.

The capacitive ring forming the front edges of the control winding of the transformer for 230 kV is made of a twisted thin-walled copper tube. Its ends are connected by a pin 3 of hardened fabric, the diameter of which is identical to the outer diameter of the tube 1. Both ends of the pin 3 are mounted on the inner diameter of the pipe 1 ^and connected to the pin 4. In the openings in the tube ^e j and pushed soldered fifth cavity outlet pipe 1 is filled with a cured non-conductive material 2, which is for example a two-component resin, or a resin filler supplemented of fine sand. However, the filling can be any non-conductive mechanically resistant material which can be cured after filling the rounded tube, for example a concrete mixture can also be used.

Claims (1)

Capacitive ring of control winding of transformers, especially very high voltage, consisting of non-conductive core and conductive casing forming unclosed thread with terminal, characterized in that the casing is made of rounded thin-walled tube (1) of non-magnetic metal circular profile filled with hardened non-conductive material (2) and the ends of which are connected by a pin (3) of insulating material fitted on both sides.