CS261635B1 - Device for forming of thyristor columns with integrated coolers - Google Patents

Abstract

The purpose of the solution is to allow the columns to be shaped with a large number of integrated thyristors coolers for high voltage converters so that the thyristors with integrated coolers they did not deviate from the column's axis reaches a device that is made up of a retractable device and centering device. Centering the device consists of a two-piece hollow bodies in which they are arranged in planes perpendicular to the longitudinal axis of this two-piece · hollow body of the system always four ribs. The ends of the ribs extending into the inside two-piece hollow body are shaped to cool down, Integrated with thyristors of compressed column.

Description

The present invention relates to an apparatus for:. forming a column of thyristors with integrated heatsinks, consisting of a clamping device formed by beams, at the ends of which there are nut ends and a centering device.

Thyristors with integrated heatsinks have extremely favorable technical parameters, especially in the cooling field. Their disadvantage, however, is that in production it is difficult to maintain the absolute parallelism of the bearing surfaces of the heatsinks integrated in one unit with the thyristors, which results in a deflection of the elements from the column axis when compressed by more than four in one column; therefore, in some cases the working pressure on this column cannot be achieved.

These drawbacks are overcome by the device according to the invention, characterized in that the device for shaping the thyristor column with integrated coolers comprises, in addition to the clamping device, a centering device consisting of a two-part hollow body in which they are arranged in planes perpendicular to the longitudinal the axes of the two-piece hollow body of each set of four ribs whose ends extending into the interior of the two-piece hollow body are shaped to engage coolers integrated with the thyristors of the compressed column.

The advantage of the thyristor column forming apparatus with integrated coolers according to the invention is that it is possible to stack thyristor columns for high voltage converters with a large number of elements, which has not been possible so far.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be explained in more detail below with reference to the exemplary embodiment shown in the drawing.

FIG. 1 shows a pull-down device with a thyristor stack with integrated heat sinks.

Fig. 2 shows a side view of the centering device according to the invention.

Fig. 3 shows a plan view of the centering device according to the invention.

The device for forming a thyristor column with integrated heatsinks according to the invention consists of a clamping device and a centering device in which the clamping device is mounted when the thyristor column is shaped. The clamping device according to FIG. 1 consists of beams 5 at both ends of which stirrups 6 are provided, which can be provided with springs and pressure indications inside. Auxiliary insulators 4 are provided at both ends of the thyristor column with integrated coolers 3. Nuts 8 are screwed on the ends of the beams 5 outside the yokes 6.

The centering device according to FIGS. 2 and 3 consists of a two-part hollow body 1 in which four ribs 2 are arranged in planes perpendicular to its longitudinal axis. The mutual distances of these four ribs 2 correspond to the distances of the heatsinks 3 integrated with thyristors which are in a column. The ends of the ribs 2 extending into the interior of the two-piece hollow body 1 are shaped to abut the heatsinks 3 integrated with the thyristors in the compressed column. The two parts of the two-piece hollow body 1 are connected by means of a screw connection 7.

The procedure for forming a column of thyristors with integrated heatsinks is as follows. Thyristors with integrated heatsinks 3 are first folded into a column in the clamping device as shown in Fig. 1. After the thyristor column has been preloaded using nuts 8 in the clamping device, the two-piece body is disassembled by loosening the screw connection 7 and into the bottom of the two-piece hollow body 1.

Thereafter, the two-piece hollow body 1 is refolded and the two parts are joined by means of a screw connection 7. To this end, the thyristor column with integrated heatsinks 3 is re-pressed either by tightening and loosening the nuts 8 in the prescribed procedure or by tightening the nuts 8 to a specified pressure in a thyristor column, followed by placing the entire device in the furnace where heating is performed. Due to the different dilatations of the clamping device and the thyristor column, an additional mechanical compression of the thyristor column occurs when properly heated.

In order to achieve a durable, time-independent molding stability, a plurality of cycles must be selected, at least two cycles, whether mechanical stress or in combination with the use of heating. This compression of the thyristor column must be carried out by a pressure which is at least 20 percent higher than the working pressure. The ribs 2 of the two-piece hollow body 1 are in contact with the circumference of the heatsinks 3 integrated with the thyristors and thus prevent their deflection from the column axis.

By means of the thyristor column forming apparatus with integrated coolers according to the invention, it is possible to stack thyristor columns for high voltage converters of various kinds with a large number of elements.

Claims (1)

A device for forming a thyristor column with integrated heatsinks, comprising a clamping device formed by beams at both ends of which a nut bracket is provided and a centering device, characterized in that the centering device is formed by BACKGROUND OF THE INVENTION A two-piece hollow body (1) in which they are arranged in planes perpendicular to the longitudinal axis of the two-piece hollow body (1j of a set of four ribs (2) each having ends extending into the interior of the two-piece hollow body (1).