DE4000411A1 - Capacitive voltage converter with voltage divider - has resonance choke coil and intermediate converter connected at divider point - Google Patents

Abstract

The capacitive voltage convertor consists of a capacitive voltage divider (2) whose divider point (TP) is connected to a resonance choke coil (11) and an intermediate convertor (8). At least the overvoltage coil (7) of the intermediate convertor is embedded in setting resin. The divider point is connected first to the overvoltage coil of the intermediate converter, at least part of which is connected in series with the overvoltage coil of the resonance choke coil. The intermediate convertor with all its coil and core parts is embedded in a block of resin exposed to the atmosphere. The block carries the voltage divider via a flange connection. ADVANTAGE - Construction of capacitive voltage converter is rationalised using reliable and extremely compact design.

Description

The present invention relates to a capacitive Voltage converter according to the preamble of claim 1.

Such a capacitive voltage converter is from the DE-AS 12 41 908 known, in which the windings of the Intermediate converter, in particular its high voltage winding, are embedded in cast resin. This resin body has a flange at its upper end with which he is supported on the one hand on the earthed housing and on the other hand, the capacitive voltage divider by means of a porcelain covering the capacitive voltage divider insulator is attached. As a waterproofing and insulating agent insulating oil is pre-selected for the capacitive voltage divider see.

A capacitive voltage converter of a different design is known from DE-PS 15 41 800. There is the resonance choke coil between the dividing point of high and low voltage-side divider capacitor of the capacitive voltage divider and the intermediate converter switched on and is therefore to high voltage potential in the order of 20 kV. The intermediate converter is - as usual - with the resonance choke coil connected in series.

The object of the present invention is to be achieved a capacitive voltage converter at the beginning mentioned type so that a rational Manufacturing of all converter parts is possible. In particular, should a reliable and extremely compact at the same time Construction of all individual elements, i.e. the voltage divider, the resonance choke coil and the intermediate converter will.

This task is solved by the in the characteristic of the Claim 1 specified features.

The present invention is characterized in particular by this that the intermediate converter is one of its active parts (Wick lungs and iron core) fully integrating, open air represents stable component that directly with the capacitive voltage divider is connectable. The intermediate converter is not only electrically connected directly to the divider point of the capacitive voltage divider connected, but is - contrary to the previously known solution according to DE-AS 12 41 908 - out of the grounded metallic housing as it were taken. The intermediate converter therefore forms an electrical one and mechanically independent building block that stands out for itself provides, pre-checked and then with the further construction stones of the capacitive voltage converter according to the invention, namely with the capacitive voltage divider and with the Metal housing for the resonance choke coil in a simple way can be connected.

Further advantageous details of the invention are in the Subclaims are specified and are subsequently based on a embodiment illustrated in the drawing described in more detail.

Show it:

Fig. 1 in a sectional view a side view of a capacitive voltage converter according to the prior lying invention,

Fig. 2 is a view of this capacitive voltage converter from above and

Fig. 3 shows the associated electrical circuit for this capacitive voltage converter.

The capacitive voltage converter 1 according to the invention consists of the two, a capacitive voltage divider 2 form the divider capacitors 3 , 4 , which are arranged one above the other and flanged together in a manner known per se. These divider capacitors 3 , 4 are fixed on a casting resin block 5 gas or liquid-tight, in particular screwed special sealing. The cast resin block 5 made of air-resistant cast resin, in particular made of cycloaliphatic cast resin, encases the active parts, that is, the upper and lower voltage windings 7 , which are not shown separately, including the associated iron core 8 of the partition wall 6 completely.

A metal housing 9 which is at ground potential is provided below the cast resin block 5 . This comprises a free space 10 in which the resonance choke coil 11 required for the capacitive voltage converter is accommodated. This resonance choke coil 11 is connected at its one winding end to ground or ground potential, as can be seen from the electrical circuit diagram according to FIG. 3. The entire resonance choke coil 11 is therefore at low voltage or ground potential.

The surface of the cast resin block 5 , namely the side surfaces 5 a , 5 b and the upper end face 5 c are with a grounding conductive coating 12 , preferably see an electrically conductive metallization ver, with the grounding Metallge housing 9 electrically is conductively connected.

The divider capacitors 3 , 4 of the capacitive voltage divider 2 each consist of windings or a stack of winding bodies which are impregnated or impregnated with an insulating medium before preferably insulating gas or insulating oil. A cast resin jacket 13 is provided as the jacket of these divider capacitors 3 , 4 . This is produced in an optionally lost form by the fact that the dividing capacitors 3 , 4 are impregnated in the mold with the insulating agent (liquid or gaseous) and that casting resin is subsequently introduced into the casting mold from below. This poured resin rises in the mold and displaces the impregnation or impregnation medium to the extent that this is not required for the necessary impregnation. By this known Ver displacement-casting, a considerable amount of impregnating or impregnating agent is saved in the finished voltage divider 2 or in the divider capacitors 3 , 4 .

On the outside of the cast resin casing 13 , ribs 14 are provided in a manner known per se. These can be integrally formed in the manufacture of the cast resin casing 13 , so that they form a single body of homo-genem material with the ribs 14 .

However, the ribs 14 can also be added to the casting resin coating 13 of the two divider capacitors 3 , 4 , in particular using silicone resin.

The particular advantage of using the so-called displacement riser is that the impregnation agent required for the impregnation of the divider capacitors 3 , 4 is reduced to a minimum, so that the capacitive voltage divider 2 either does not need an expansion vessel at all or an expansion vessel with a minimal volume. An electrically conductive, hollow shielding ring, which is usually flanged between the two divider capacitors 3 , 4 , is particularly suitable for this purpose.

Fig. 2 shows the above-described capacitive voltage converter 1 in plan view, wherein in this Dar position, the arrangement of feet 15 , the terminal box 16 , and a TfH connection 17 are particularly good ersicht Lich. Otherwise, the individual parts of FIG. 2 are provided with the same reference numbers as in FIG. 1.

In Fig. 3, a possible circuit of the capacitive voltage converter according to the invention is shown in a schematic diagram Darge. In this illustration, 2 again denotes the capacitive voltage divider, comprising the capacitor capacitors 3 , 4 . The voltage tap for the direct connection of the intermediate converter 6 to the capacitive voltage divider 2 is designated TP . The un indirectly to the voltage tap TP electrically connected intermediate converter here has two high-voltage windings 7 and two measuring windings 18 , 19 , while the resonance choke coil 11 connected in series with the intermediate converter 6 has a measuring or control winding 20 .

The electrical connection between the capacitive voltage divider 2 and the intermediate converter 6 takes place via a plug contact pin 21 , possibly via a multi-contact of a known type. With an electrical lead 22 1 is shown in Fig. Additionally drawn, the capacitors, the potential of usually 20 kV at the divider point TP between the splitter 3, 4 the intermediate converter 6 impresses. 23 with a further electric line is shown in FIG. 1, the 12 connects the conductive coating of the Gießharzblockes 5 with the at earth potential end of the divider capacitor 4.

The cast resin jacket 13 of the divider capacitors 3 , 4 is preferably made of elastically adjusted cast resin, in particular polyurethane, which can absorb the thermal expansion of the extremely small amount of impregnating agent of the divider capacitors 3 , 4 without the need for an additional expansion tank. Possibly. However, as already mentioned briefly, an expansion vessel with a small volume can also be provided, in particular as an annular shielding electrode at the connection point between the dividing capacitors 3 , 4 .

The capacitive voltage converter according to the invention is characterized in particular by the fact that all essential construction parts, namely the capacitive voltage divider 2 , the intermediate converter 6 and the resonance inductor 11 are manufactured for themselves, pretested and can be assembled with one another in the simplest manner after passing the preliminary test. The cast resin technology used for the voltage divider 2 or the intermediate converter 6 is at a high technical level, so that the failure rates are inherently low and can still be reduced by the prefabrication of these components. With the cast resin technology used, the size dimensions of the capacitive voltage divider 2 and the intermediate converter 6 can be reduced to optimum values. In addition, by the downstream connection of the resonance inductor 11 and their placement in the metal case 9 reel and the dimensions of the resonant inductor 11 can be reduced to a minimum.

The capacitive device according to the invention is thus distinguished Voltage transformers not only because of their high operational reliability unit, but also through an exceptionally crowded, compact design.

Claims (6)

1. Capacitive voltage converter, consisting of a capacitive voltage divider, at the dividing point of which a resonance choke coil and an intermediate converter are connected, at least the high-voltage winding of the intermediate converter being cast in casting resin, characterized in that at the dividing point (TP) of the capacitive voltage divider ( 2 ) First the high voltage winding ( 7 ) of the intermediate converter ( 6 ) is connected and in series with at least part of the high voltage winding ( 7 ) of the intermediate converter ( 6 ) then the high voltage winding of the resonance choke coil ( 11 ) is connected downstream that the intermediate wall ler ( 6 ) with all the winding and core parts ( 7 , 8 ) are cast into an open-air resistant cast resin block ( 5 ) and that the cast resin block ( 5 ) carries the voltage divider ( 2 ) and is flanged to it. 2. Capacitive voltage converter according to claim 1, characterized in that below the cast resin block ( 5 ) from a metal housing ( 9 ) limited space ( 10 ) is provided in which the resonance choke coil ( 11 ) is housed. 3. Capacitive voltage converter according to claim 1 or 2, characterized in that the surface of the cast resin block ( 5 ) is provided with a metallization ( 12 ) which is electrically conductively connected to the grounded metal housing ( 9 ). 4. Capacitive voltage converter according to one of claims 1 to 3, characterized in that the gas or liquid keits impregnated divider capacitors ( 3 , 4 ) of the capacitive voltage divider ( 2 ) with a cast resin sheath ( 13 ) are completely surrounded, the cast resin sheath ( 13 ) is applied in the riser casting, displacing the gaseous or liquid insulating agent in the casting mold. 5. Capacitive voltage transformer according to one of claims 1 to 4, characterized in that (2) ribs (14) are pre see the Gießharzum sheathing (13) of the voltage divider, which form a single homogeneous body with the Gießharzummantelung (13) or with the cast resin jacket ( 13 ) are separately connected. 6. Capacitive voltage converter according to one of claims 1 to 5, characterized in that the electrical connection between the capacitive Ver voltage divider ( 2 ) and the high-voltage winding ( 7 ) of the intermediate converter ( 6 ) via a plug contact pin ( 21 ).