FI70094C - TRANSFORMATOR- ELLER REACTOR CONSTRUCTION - Google Patents

Description

1 70094

The present invention relates to a transformer or choke structure comprising two or more columns, transverse strands connecting them, windings wound around the columns and support profiles arranged on opposite sides of the transverse strands, which, viewed in the longitudinal direction of the columns, comprise a plurality of girders.

In a conventional smaller transformer or choke, the support profiles attached to the sides of the crossbars are trough-shaped, with the bottom of the trough facing the transverse and the sides projecting horizontally to the sides. This shape of the support profile is due to the fact that the profile must be rigid. Alternatively, the support profile can also be, for example, a straight plate with only one projecting flange, if it is fastened to the heart by bolts passing through the yoke, in which case the need for rigidity is not great. In addition, the lower sides of the profiles on the sides of the subdivisions can be used to assist in the installation of a transformer or choke 20 on its base.

Often, in addition, the windings of a conventional transformer are wound around relatively tight columns to achieve a compact shape and the smallest possible size.

A transformer or choke so-25 as described above is very poorly encapsulated. In addition, its cooling by means of forced ventilation, due to its closed structure, does little to facilitate cooling and thus increases the possibilities of placing such a choke or transformer in a housing or a ventilated duct.

The object of the present invention is to provide a transformer or choke structure which, due to the structure of its support profiles and wrapping, is very well suited for forced ventilation and thus for installation in a ventilated duct with a rather small cross-section.

This is realized in the structure according to the invention in that the support profiles consist of two planar surfaces spaced apart from each other and connecting cross-ribs, and that the windings arranged on the columns consist of two or more winding layers spaced apart from each other and the columns in a manner known per se. This design allows for very efficient forced ventilation of the choke core and windings with the support profiles acting as core cooling plates. In the structure according to the invention, the rigidity of the support profile is made sufficient, while the air resistance 10 caused by the profile in the vertical direction remains quite small.

Other advantages to be achieved by the invention and its more detailed structure will now be described with reference to the accompanying drawing, in which Figure 1 shows the structure according to the invention schematically, Figure 2 shows a cross-section of the structure according to line AA of Figure 1, and Figure 3 shows a cross-section of the structure according to Figure 1. along line BB.

The transformer or choke structure 1 schematically shown in Fig. 1 comprises two columns 2, connecting transverse struts 3, windings 4 wound on the columns 2 and support profiles 5 attached to opposite sides of the transverse struts 3. Support profiles 5 are attached to the sides of the transverse strands 25 3. with bolts passed through 6.

Figure 2 is a sectional view of the structure of Figure 1 taken along line A-A of Figure 1. Figure 2 shows a more detailed structure of a preferred embodiment of the support profiles 5. The support profiles comprise two vertical planar surfaces 9 and 10. The planar surface 10, which is located against the transverse path 3, is smooth so that heat can be conducted to it as well as possible from the iron core. In the case of a choke, there are in addition between the profile and the yoke 35 brass strips 7 covering the opposite surfaces of the core columns 7. The outer surfaces 9 of the profile are laterally grooved to form the largest possible cooling surface.

3,70094

The cross-ribs 8 between the planar surfaces 9 and 10, with the exception of the ribs 14 at the ends, are arranged in oblique positions relative to the surfaces 9 and 10, so that the openings 11 formed in the profile are substantially triangular. In this case, the rigidity of the support profile is made so high that the profiles can be fastened in place by means of bolts 6 connecting the end areas of the profiles. The cross-sections of the profiles can also be located perpendicular to the planar surfaces 9 and 10, but in this case the same rigidity 10 and not as large a cooling surface as in the structure according to Fig. 2 is achieved.

Figure 3 shows a section of the structure according to the invention along the line B-B in Figure 1. Figure 3 shows the shape of the windings placed on the columns 2 in more detail for 15 minutes. In the exemplary embodiment according to Figure 3, the windings are arranged in two layers 4a and 4b. The inner layer 4a is arranged separately from the columns 2, e.g. by means of corner pieces 12 of fiberglass. The outer winding layer 4b is in turn spaced apart from the inner winding layer 20, e.g. by means of glass fiber snacks 13. In this way, a sparse winding structure which is very suitable for forced ventilation is created.

The transformer or choke structure according to the invention can be placed in the housing, e.g. in a horizontal position, whereby it can be fastened to the housing, e.g. by forming bolts 6 so long that they also extend through the housing.

Claims (4)

4,70094 A transformer or choke structure comprising two or more columns (2), transverse yokes (3) connecting them, windings (4) wound around the columns and support profiles (5) arranged on opposite sides of the transverse yokes (3) , which, viewed in the longitudinal direction of the posts (2), comprise a plurality of openings (11), characterized in that the support profiles (5) consist of two planar surfaces (9, 10) spaced apart by 10 and spaced apart by transverse ribs (8, 14) (2) the arranged windings (4) consist in a manner known per se of two or more winding layers (4a, 4b) spaced apart from each other and from the columns (2). 15 Structure according to Claim 1, characterized in that the transverse ribs (8) are arranged in an oblique position relative to the planar surfaces (9, 10) so that the openings (11) formed are substantially triangular. Structure according to Claim 1, characterized in that the surface of the support profile (5) away from the transverse strands is grooved. Structure according to one of the preceding claims, characterized in that the support profiles (5) act as cooling elements for a core 25 of columns (2) and transverse strands. of