DE1489628A1 - Iron core for inductive devices - Google Patents

Description

Iron core for inductive devices The invention relates to an iron core for inductive devices, in particular large choke coils for high voltages, with at least two columns and two die. Column connecting yokes of substantially rectangular cross-section with reduced yoke height and a yoke center at least equal to the column width.

The maximum power that can be carried out depends largely on how far it is possible to build the choke coil relatively low so that it still fits into the loading profile of the railways; Difficulties are encountered here, especially at high voltages. A known core type of relatively low overall height consists of a radially laminated column, around which C-shaped bump yokes are distributed all around. But then you have to apply the high voltage between two such joepen, and there are insufficient distances between the supply line and neighboring C-yokes. In similar low overall height generally preferable, at least at the highest voltages would therefore be a similarly low, but previously unknown type of a core that up any columns parallels RUckschlusajoche, * EITT, to däss iie # for DIAE In äpui enmitte to closing " Üod2htpahnung ohftü w'Üit6rob large distances up to the next barks deg 191senkerh # result.

Because of the manufacturing advantages, circular coils are preferred these make an at least approximately circular Säulenquötzchnitt necessary. If two or more such columns are connected by yokes, Aich tri represents the latter a flow distribution in the manner of a) that in the middle of the yoke a much larger one Pluse is clocked as near the flanks of the yoke. So far you have done accordingly the middle yoke plates much wider than those near the yoke flanks located and must therefore accept a relatively large yoke height.

In pursuit of the purpose of enabling higher marginal performances, the invention is based on the aura of achieving this by means of a comparison for plusävertellüng in the yoke. If it is possible to reduce the Flus8 in the middle of the yoke, one often gets by with a lower overall height. Thus the yoke the same # n aesam.tfluss tUhrtb Mugs he according to the Fluns In Nä- the Jochtlanken experience a gain. According to the knowledge on which the task is based, a minimum of yoke height is achieved if it is possible to convert the originally approximately sinusoidal pitch in the yoke transversely to its longitudinal direction into a constant * of such a formation the yoke *, since "eio.i that of the Column-guided magnetic flux when crossing the Jn-e-yoke splits into partial fluxes which have oppositely directed components.

Accordingly, the yoke plates are above the outer pillars of the iron core in such a way that it forms part of the river flowing from the center of the column lead away from the center and lead to the yoke flanks, so that at the transition from the pillar in the yoke (1.3r river is split into partial rivers, which in different - # -, different Directions run.

In a preferred embodiment of the invention, the yoke consists of a central laminated core made of straight metal sheets and a yoke part wound around the central laminated core made of dandy material. 1 shows this embodiment in a plan view of one end of the yoke, which consists of the central laminated core 11 and the part 12 wound around it; with 15 the column of the iron core located below is referred to. The arrows in Fig. 1 indicate the partial flows and directions in which the fluff that passes from the column into the yoke splits. In the plan projection, the directions essentially coincide with the longitudinal directions of the magnetic sheets. From point A the river takes a geometrically shorter path to the other Sgule along the central plane of the Elsenkern and through the laminated core 11, but this path would be due to the at. End of Filechpriln-t.,; 11. erfindungsgerr-Uss inserted air- # i pa i 1, (ts 10 much irrüss (3r (-rj offer magical resistance, (13.91, he will he r) I (: hl.- struck. In the area, At point A , a part of the flow emerging from the column in the mid-plane of the nise core is diverted into the hand areas of the yokes, thereby achieving the task of comparing the flow across the yoke cross-section, which can therefore be formed from metal sheets of the same width which is smaller than the sheet width required without measures to allow comparison in yoke sections. En results in a yoke cross-section in the form of a relatively flat rectangle.

In a further development of the invention that leads to even better uniformity, especially with large column diameters, a yoke is composed of two elements, each half the width of the yoke, each of which consists of straight sheets and one Yoke plate wrapped around the middle laminated core made of strip material. 2a shows this embodiment in a top view of one end of the yoke which consists of two identical halves with the two central laminated cores 21 and 22 and the parts 23 and 24 wound around them; with 25 the column of the iron core located below is designated.

In this embodiment , according to the invention, it is essential that the strands of the wound yoke part located in the middle of the yoke are interrupted by two air gaps, one of which is located above the end face of an outer column in such a way that it covers the part of the area covered by the inner strands of the wound yoke parts Column-end face into two roughly equal tolle-divides. Fig. 2a shows one of these two air gaps 26, which cause the desired separation of the magnetic separation of the flow in the inner, direct path from the columns into the inner strands of the nickel-plated yoke points 2_3 and 24 , and in an outside n-1U9Z. The indicated position of this - # 'air sp * lt * has the effect that approximately the same flow is supplied on both routes.

In the FIG, 1, and 2 illustrated embodiments of the invention it is expedient, the ratio of the cross-sections of the even and the yoke wound - to make e approximately equal to the ratio of the area covered by each of these parts surface portions of the column cross-section. One can then expect about the same flux density in these parts. The ratio of the cross-sections is identical to the ratio of the (active) sheet stack thicknesses in the case of the desired sheet metal sheet that is the same everywhere. In the embodiments of the invention shown in FIGS. 1 and 2a, the wound yoke part can of course be replaced by a yoke part made up of individual, preferably overlapped metal sheets, of the same shape and the same course of the metal sheets.

It can be seen in Fig. 1 and 2a, then the yoke width is larger & la the column diameter is shown. S Is readily appreciated daso this measure einträchtigung within certain limits without the pre der'Vergleichmäzeigung the Flunavertellung. can be seen. This is a further advantage of the invention, because the wider the yoke can be made without taking into account the comparison of the flux distribution, the lower it will be. Particularly in the embodiment of the invention shown in FIG. 2a, this advantage can be used to a large extent in that the outer strands of the wound yoke parts run outside the column circle, as can be seen from FIG. 2a. This measure must not be confused with yoke attachments for "capturing" part of the leakage flux; the parts of the yoke that protrude laterally over the columnar steer ( This leads to a lower yoke, while additions to capture the leakage flux cause an increase in the height of the yoke, since the yoke also carries the captured part of the leakage flux in addition to the main flow.

In a further embodiment of the invention, between the main yokes in the form of plate yokes and the scules, rectangular intermediate yokes are arranged in the plan, the magnetic sheets of which cross those of the main yokes. This embodiment is shown in Fig. 3a in elevation and in Fig. 3b in the basic view, in which 31 one end of the main yoke (plate yoke) of rectangular cross-section 32 shows the intermediate yoke and 35 a piece of the column located under the end of the yoke shown. Dan Zwischenjoch distributes the Flusei no that starting from there it runs through the main yoke in an approximately even density, ie it divides itself in the intermediate yoke into two partial rivers striving away from the center. The fact that, despite the insertion of the intermediate yoke, the entire yoke height (of the intermediate and main yoke) becomes smaller than without the insertion of the intermediate yoke and, accordingly, a greater sheet width in the middle of the yoke, is surprising. It can also be saved in height, if you the main yoke according to the dash-dotted. th line 33 drops; then namely the pressing device does not protrude beyond the upper seam of the main yoke. A particular advantage of this embodiment of the invention, as well as of the embodiments described above, is that there is only one feeding direction and therefore achieves good stability of the iron core with a simple pressing device. Finally, it should also be mentioned that the concept of the invention - also forfeited., Is light if at the ends of the main yokes parallel to the pillars are arranged additional rear end yokes; the cross-section of this additional, -IRUckschl-usajoche can be smaller than the jentgeder Bauptjoehe and preferably in such a way that "the Rückschlunajoche only for the middle part of the main yoke form a magnetic backbone. Fig. 4a (elevation) and Fig. 4b '(Orundries) illustrate this execution. therein 41 represent the main 'yoke of rectangular cross section (plate yoke) 42 which located on the drawn end of additional Rückschlusojoch, 45 the column located there. gg is now important, DAAs calibration that part of the SäulentIMenes that of the middle one, with an additional backlash, is overpimped, you can roughly evenly divide partep into 4 # e be # Aen ways (through the main and around the outside through d4e zi # egtzlic4e. To ensure this, you can divide the sheets of the middle Part of the main yokes had to be interrupted by an air gap 46 above the two outer columns, which in this regard has the same effect as the Luttepa lt 26 in Flg. 2a. The drawn air gap 47 indicates the inevitable butt joints. Another possibility is that. in that there are compensating windings 48 and 49 that are matched to one another on the main yokes, or their middle part, which is magnetically connected to the backward yoke and on the additional backward yokes 48 and 49 automatically adjust the magnetic fluxes. Such air levels are not disadvantageous in the case of choke coils and are inserted into the magnetic circle anyway and for other reasons, especially in the columns. It is obvious that the Luttepolt 46 is the simpler assumption than the windings 48 and 49 shown. The In] Pig. The embodiment of the invention shown in FIGS. 4a and 4b does not entirely avoid back-closing yokes parallel to the columns and requires pressing in two different directions, but is nevertheless sometimes useful.

It is irrelevant for the invention in which way the columns are designed in detail, furthermore whether it is single or multi-phase inductive devices, in particular choke coils. More than two columns, both for single-phase as well as multiphase devices occur, then arise, however no significant problems, such as can be seen from Figure 2b -for the inner column: Herein, the arrangement of Figure 2a for a three-pillar iron core according to the.. Invention Completed; the designations are the same as in Fig. 2a. Of course, when using sheets with a preferred magnetic direction, their known application rules will be observed and, if possible, alternating sheets or 45 ° cuts will be provided for the objects according to the invention at transition points with unmistakable cross flows.

Claims (2)

Patent application i. Iron core for inductive devices, in particular large choke coils for high clearances, with at least two columns and two yokes connecting the columns of essentially rectangular cross-section with a reduced yoke height and a yoke width at least equal to the width of the column, characterized by such a design of the yokes to even out the distribution of the magnetic flux In the yokes that the magnetic flux carried by the pillars splits into partial fluxes at the transition into the yoke, which have oppositely directed components. 2. Iron core according to claim 1, characterized in that a yoke consists of a central laminated core made of straight sheets, and one around the central laminated core. yoke part wound from strip material. 3. Iron core according to claim 1, characterized in that a yoke is composed of two elements, each half the yoke width, each of which consists of a central laminated core made of straight metal sheets, and a yoke part wound around the central laminated core made of strip material. 4. Egg core according to claim 3, characterized in that the strands of the wound yoke located in the center of the yoke are interrupted by two air gaps, one of which is located above the end face of an outer column, so that the partial area covered by the inner strands of the wound yoke parts divides the SKulen face into two roughly equal parts. 5. Iron core according to claim 2 or 3, characterized in that the ratio of the cross sections of the straight and wound yoke parts is approximately equal to the ratio of the partial areas of the column cross section covered by each of these parts. and iron core according to claim 2 or 3, characterized in that the wound yoke part is replaced by a yoke part made up of individual, preferably overlapped metal sheets and having the same shape and the same course of the metal sheets. 7. Iron core according to claim 3, characterized in that the outer strands of the wound yoke point run outside the column circles. Iron core according to claim 1, characterized in that between the main yokes in the form of plate yokes and the pillars in the plan, rectangular intermediate yokes are arranged, the magnetic sheets of which cross those of the main yokes. G. Iron core according to Claim 1, characterized in that, at the ends of the main yokes, additional return yokes running parallel to the columns are arranged, the cross-section of which can be smaller than that of the main yokes. 10. Iron core according to claim 9, characterized in that the return yokes form a magnetic return path only for the central part of the main yokes, and that the sheets of this central part of the main yokes — in the middle of the two outer columns — are each interrupted by an air gap. 11. Iron core according to claim 9, characterized in that the additional return yokes are magnetically connected to the main yokes via butt joints and are located on the main yokes or their middle part magnetically connected to the return yokes, and on the additional return yokes Compensating windings are located.