NO121000B - - Google Patents

Description

Choke or transformer.

The invention relates to a choke or a transformer with a magnetic core which is made up of tin packs which form at least a pair of windows, in which at least one winding is placed, the magnetic core with the winding or windings being placed in a tin housing.

The invention aims to increase the inductance of such a choke or transformer, while lowering the self-consumption, that is the copper and iron losses.

The choke or transformer according to the invention is characterized by the fact that the winding heads which protrude from the pairs of windows are so deflected from the plane of the winding that on one side they rest against the tin pack and on the other side against the housing.

In the drawing, there are two embodiments of the invention

the stand, rendered.

Fig. 1 shows a cross-section through a first choke.

Fig. 2 shows a side view of this throttle's two-part magnetic core with one of the two core windings.

Pig. 3 and 4 each show a section through a single view of the magnetic core, following the lines III-III and IV-IV respectively in fig. 2 on a larger scale.

Pig. 5 shows a representation corresponding to fig. 2 of one

second throttle.

The one in fig. 1 - fig. 2 reproduced choke exhibits a magnetic core, which is composed of two symmetrical packages 2 of E-shaped dynamo tins, which are arranged inside a tunnel-shaped cap 3 on a base plate 4. The cap 3 and the base plate 4 consist of tin and are connected with each other along their free longitudinal edges with a fold 5 and thus form a housing, on the not shown end sides the necessary connection clamps are arranged. The E-shaped tin packs form in the square-shaped core 1 two windows 6, in which two symmetrical windings 7 are placed, of which the upper one is omitted in fig. 2. Between the two windings 7 there is usually a strong insulating foil .8 and between each winding 7 and the corresponding tin pack 2 two further insulating foils 9. In the air gap 10 between the tin packs 2 there are also placed two thin plates 11 of malleable, but relatively hard material, which has been deformed by setting the choke's inductance to a predetermined value, before the magnetic core 1 has been clamped between the base plate 4 and the cap 3 by forming the seam 5.

As can be seen from fig. 2, the distance a between the middle E-leg 12 and the outermost E-legs 13 is greater than the height b of these legs. Since the width c of the winding 7 corresponds to the height b and the height d of the winding to the distance a, with a flat, right-angled winding of each side of the magnetic core 1 protrudes a winding head 14', as it is shown in dotted lines in fig. 1. In order to accommodate such a winding head 14<*> in a cap that corresponds to the cap 3, this had to be made significantly larger than the actual cap 3. To avoid this, dimension a has so far been made smaller and therefore dimension b larger than at the shown vE gaze. However, an in-depth investigation has shown that for the achievement of a large inductance at the choke it is more advantageous to increase a and decrease b. In order to be able to do this, without enlarging the housing 3, 4, the winding heads 14* are now bent from the winding plane in the arrows direction to their actual position 14. Thereby not only is the advantage of a more favorable cross-section of the magnetic core with regard to the magnetic flux without additional space required, but also the advantage of a better heat dissipation of the heat that occurs when the winding is in operation, namely over the large winding heads 14 which lie close to the cap 3. The free space between these winding heads 14 and the housing 3, 4 can also be filled with an electrically insulating but relatively well heat-conducting mass.

Through the precautions described, it has been achieved to arrive at an increase in the inductance of the two series-connected windings 7 of approximately 10$ by simultaneously lowering the losses of approximately 10$ compared to chokes of a similar type with the same external dimensions.

Although with the usual dimensions of chokes intended for switching equipment for fluorescent lamps and the like, it is easiest to wind the winding 7 first flat and then deform the winding heads 14 as described with reference to fig. 1,

it may in some cases be advantageous to wind the windings from the outset with heads that protrude from the winding plane, that is to say bent over, especially when it concerns relatively large reactors or transformers.

To keep the tin pack 2 together, the tins can for example be riveted to each other. In order to avoid the additional work that this requires and also further iron loss caused by the rivets,

the cans in the present package 2 are equipped with small protrusions 15 and 16. From fig. 3 and 4 it appears that these protrusions have a depth that roughly corresponds to the sheet thickness. When the cans are stacked on top of each other and pressed together to form the package 2, each bulge 15 and 16 penetrates into the corresponding indentation 15' and 16' respectively of the adjacent cans and is clamped to these so that the cans hang firmly together. The bulge 16 differs from the bulge 15 in that it is arranged at the edge of the tin, so that the indentation 16' is deepest at this edge. The protrusions 15 and 16 are impressed by the punching of the E-tins without further work operations.

The one in fig. 5, the magnetic core la shown is composed of an E-shaped tin pack 17 and a T-shaped tin pack 18, which are dimensioned such that the core la has the same outer dimensions and the same window 6, as the core 1 of the one in fig. 1 and 2 showed throttle. The difference between the two cores consists in the fact that the two outer legs 19 of the E-tin pack 17 of the core lay against the end surfaces of the T-tin pack cross beam 20 and below form a press fit with this. The middle leg 21 of the E-tin pack is the same length as the center beam 22 of the T-sheet package and faces this during the

the creation of a small air gap, in which iso-

the clay foil 8. The sheets in the packages 17 and 18 are again held together by means of bulges 15 and indentations 15' respectively.

An advantage of the embodiment according to fig. 5-is that the magnetic core

1a is not only held together by means of the housing 3, 4, but that as such it already forms a solid whole, so that the housing can be thinner and the tendency of the core to emit hum can still be lowered.

Although the choke or transformer's magnetic core i

generality as mentioned is made up of two tin packs, which form only a pair of windows, magnetic cores can also be used, which for example are made up of three tin packs, which form two pairs of windows,

in which one or more windings are arranged. A tin pack can, for example, take the form of two E-packets lying next to each other 17

(fig. 5), and the other two tin packs can take the form of a T-pack 18

(Fig. 5). Such a magnetic core is suitable for the construction of double-

chokes or double transformers, which can otherwise be made according to the invention.

Claims (4)

1. Choke or transformer with a magnetic core made up of several tin packs, which form at least one pair of windows in which at least one winding is placed, the magnetic core with the winding or windings being arranged in a tin housing, characterized by the heads (14) of the winding or the windings (7) that protrude from the pairs of windows (6) are so deflected from the winding plane that on one side they rest against the tin pack ..and on the other side against the housing (3, 4). 2. Choke or transformer in accordance with requirement 1, with four- angular magnetic core, characterized in that the magnetic core (1a) is composed of an E-shaped tin pack (17) and a T-shaped tin pack (18), with the two outer legs (19) of the E-tin pack (17) resting against the end surfaces of the T -the cross beam (20) of the tin pack (18) with a press fit, while the middle leg (21) of the E tin pack (17) lies opposite the central beam (22) of the T tin pack (18) forming a air gap, as this middle leg and the middle beam are largely the same length. 3. Choke or transformer in accordance with claim 1 or 2, characterized in that the distance (a) between the middle legs (12; 21) of the E-tin pack or the E-tin pack (2; 17) and each of its outer legs (13; 19) ) is greater than this middle leg (12; 21) height (b). 4. Choke or transformer in accordance with one of claims 1 to 3, characterized in that two windings (7) with symmetrically bent winding heads (14) are occupied in a pair of windows (6).