DE1911682A1 - Isolation arrangement for windings of static high-voltage induction devices - Google Patents

Description

"Insulation arrangement for windings of static high-voltage induction devices" French priority dated March 12, 1968 from French patent application No. 2805 (Belfort) The invention relates to an insulation arrangement for static windings High-voltage induction devices with layers concentric around the windings. One such isolation arrangement must be between the windings of such devices and the surrounding metal masses are provided.

It is known that between the windings and the metallic masses sufficient space must be left for the potential gradient of the electric field remains compatible with the forces that exist in this interspace arranged insulation rods can endure, and thus the magnetic stray field does not cause additional impermissible losses in these metallic masses.

In the case of a winding formed from concentric layers of turns the equipotential lines at the axial ends are not perpendicular to the axis, i.e. they are neither to the metallic mass located at the end of the axis nor consequently the insulation rods inserted between these masses and the winding parallel.

The invention is based on the object of an insulation arrangement of the type mentioned to create the necessary electrical clearances between a high voltage winding and the surrounding masses can be reduced can, without at the same time due to magnetic leakage flux additional Losses in the parts surrounding the windings, especially in the vertical one To increase the wall of the container containing the device. This task is with the Isolation device proposed here mainly achieved in that according to the invention around the winding concentric to it metallic fittings opposite an imaginary one Cylinder with the same axis as the winding and a slightly larger diameter than the outer diameter of the winding are arranged such that due to the Capacity of the fittings to each other in that located around the winding Interspace; sets a stress distribution that is symmetrical to the stress distribution is between the winding layers.

An advantageous embodiment of the insulation arrangement according to the invention is that the metallic fittings are made of a magnetic material high Permeability exist and have a sufficient cross section so as not to be magnetic to be satiated.

Further features and advantages achieved by them can be found in the description the drawing in which the invention is illustrated schematically. Show it: 1 shows a section through the upper end of a winding which is insulated in a known manner a static electrical device and FIG. 2 shows an embodiment selected by way of example he inventive Isolatioasordnung in one of the shown in Fig. 1-Ähalichen Winding.

The winding shown in section in a radial plane in FIG. 1 consists of a certain number of concentric winding layers C1, C 2, ... C 5. An equipotential armature A is at the potential of the outermost turn the position C 5 and is completed by a curvature of the appropriate diameter.

The surrounding metallic masses are as follows: The core M 1 des magnetic circuit, the upper yoke M 2 and a mass M 3, which is the adjacent Gap believed to be grounded, or the vertical wall of the container containing the device.

The trajectory of the equipotential lines (dashed lines) of the electric Field that occurs during operation or during an investigation through the in the winding induced voltage, shows in particular that this equipotential lines do not run parallel to the mass M 2, but are strongly inclined. From it one deduces that the between the winding and the mass M 2 parallel to this arranged insulation rods electrically loaded by an electrical gradient whose horizontal component is not negligible. These insulation bars are therefore not electrically loaded in the most favorable form, as such an insulation rod better withstand puncture if it is one perpendicular to its surface is subject to standing electrical force as if it were shunted, i.e. if the insulation rod has an electrical Force is subject.

In Fig. 2 is an embodiment of the insulation arrangement according to the invention for the case of a winding shown in FIG. 1. An arrangement The winding is surrounded by equipotential metallic fittings A 1, A 2 ... A 5 C 1, C 2 ... C 5 and plays the role of its electrical Illustration versus a cylinder that would have the same axis as that in the drawing The radial plane shown is represented by the straight line E.

To simplify the drawing, the isolations are not shown, which have been inserted into the winding and are located outside of it.

The radial distances between successive fittings A 1, A 2 ... A 5 and the axial lengths of these fittings are calculated so that the Configuration of the magnetic field as close as possible to the ideal configuration which exposes the insulation rods to almost uniform penetration forces. This The result is obtained where the equipotential lines in the plane of FIG. 2 are as possible run parallel to the course of the mass M 2 and the mass M 3. For that are the radial distances between the fittings A 1, A 2 ... A 5 are calculated in such a way that that due to the capacitive voltage distribution, each valve is on the middle Potential of the corresponding winding layer C 1, C 2 ... C 5 is located. The lengths of the fittings A 1, A 2 ... A 5 are each equal to the length of the corresponding Winding layer -C 1, C 2 ... C 5.

In order to also ensure good control of the magnetic leakage flux, the fittings A 1, A 2 ... A 5 are advantageously made of a magnetic material formed with high permeability and have a sufficient cross-section, so that the magnetic saturation of this material cannot be reached. These Control of the leakage magnetic flux is very important in transformers for very high voltages and very high performances.

Tie further completion of the regulation of the electric field can still be achieved by the combination of those described in the preceding Type arranged valves with fittings B 1, B 2 ... B 5, which in itself better known Way axially between the upper ends of the winding layers C 1, C 2 ... C 5 and the Masts M 2 are arranged.

These fittings B 1, B 2 ... B 5 are each at potential of the outermost turn of the adjacent winding layer C1, C 2 ... C 5 by not connections shown.

Claims (2)

Patent claims: Di. insulation arrangement for windings of static induction devices with layers concentric around the turns, characterized in that around the Winding (C 1, C 2, ..) concentric to it metallic fittings CA 1, A 2, ...) compared to an imaginary cylinder with the same axis (E) as the winding and slightly larger diameter than the outer diameter of the winding so arranged are that due to the capacity of the fittings to each other in the around the Winding located gap adjusts a voltage distribution that is symmetrical to the voltage distribution between the winding layers. 2. Isolation arrangement according to claim 1, characterized in that the metallic fittings (A 1, A 2, ...) made of a high magnetic material Permeability exist and have a sufficient cross section so as not to be magnetic to be satiated.