DE1090747B - Arrangement of the split poles of an excitation system for rotating electrical machines with pronounced poles - Google Patents

Description

Arrangement of the split poles of an excitation system for rotating electrical Machines with pronounced poles The invention relates to an excitation system for rotating electrical machines with pronounced poles, d. h: machines in which the coils to generate the inducing flux are wound around pole cores, which are radially protrude on a mounting frame. The invention relates to such a thing Excitation system in which each pole core is formed by two partial cores, which practically in magnetic terms from each other by a non-magnetic radial Space are isolated, which extends at least over the greater part of the radial depth of the core extends.

For the purpose of saving weight and suppressing anchor reaction has already been suggested for the excitation systems with pronounced poles to form each pole core from two partial cores for rotating electrical machines, which practically in magnetic terms from each other -by a radial non-magnetic Space are separated, with two consecutive core parts of opposite polarity are connected by a magnetic adapter in such a way that the through this two core parts and the intermediate piece formed arrangement a single block forms, the cross-section of which has essentially the shape of a horseshoe.

The usual manufacture of these blocks from a single piece or of several identical pieces arranged side by side in the longitudinal direction (for peeled poles) and the mounting of the excitation coils on such blocks are difficult and costly operations. Furthermore, these blocks need to be accurate Determining their mutual position are attached to a rigid frame.

It is also known, in each case, the partial cores of two adjacent poles of opposite polarity to summarize into a single whole, then in turn is attached to the mounting frame. This known arrangement is not only more cumbersome and expensive, it also makes it difficult to manufacture. For the connection between the pole pieces of opposite polarity are special Intermediate pieces necessary. There is another disadvantage of the known arrangement in that it is difficult to compensate for inequalities in the length of the coils. Once the core pieces, which comprise two partial cores, are a little further apart or have been moved closer together so that the dimensions of one of the coils Is taken into account, there is a risk that this will reduce the dimensions of the neighboring Coil can no longer be taken into account and its seat on the pole pieces no longer meets the requirements. The disadvantages of the known devices in an excitation system for rotating electrical machines, their poles are mounted projecting radially on a support frame, each pole two includes partial cores wrapped around the same coil, which in magnetic terms are practically separated from each other by a non-magnetic space, while two adjacent partial cores magnetically connected to one another in opposite polarity are avoided according to the invention in that each partial core is independent both from the partial core belonging to the same pole and from the one to the neighboring one Part of the core belonging to the pole on a part of the magnetic material Support frame is attached, which the latter in a known manner for production the magnetic separation between the partial cores of the same pole with non-magnetic Has material filled slots or windows. Through this training, the Making the excitation system much easier.

In order to reduce the anchor reaction considerably, it is according to one Development of the invention in an excitation system in which in a frame made of magnetic material, a window made of non-magnetic material in the area of the space is provided, the two core parts of a pole in magnetic It is advantageous that the window has a greater length than the partial cores. One very simple production of the excitation system is achieved by that the frame consists of a single tubular body in which the window are cut out so that the remaining bridges are made of magnetic material have the smallest possible cross-section at the longitudinal ends.

The excitation system according to the invention can also be produced by that the frame is made up of rods made of magnetic material, which through Intermediate pieces made of urimagnetic material are connected to one another. Another An advantageous possibility is to make the frame from a framework made of urimagnetic Manufacture material with embedded rods made of magnetic material. The measures according to the invention result in a relatively simple structure of the Arrangement together with an easy installation option. In manufacturing Particularly advantageous is an excitation system in which the urimagnetic Frame framework is made in a mold by injection molding or casting and the magnetic bars provided with protrusions or depressions at their edges are anchored in the urimagnetic mass of the framework from the casting process.

The invention is described below by way of example with reference to the drawing explained.

Fig. 1 shows a diagrammatic view with partially cut coils inventive excitation system for a dynamo machine; Fig. 2 shows diagrammatically another embodiment of the frame of the excitation system according to the invention; Fig. 3 and 4 show in a cross section along the line III-III of Fig. 4 and in one, respectively Longitudinal section along the line IV-IV of FIG. 3, another embodiment of the invention Excitation system; FIGS. 5 to 8 show diagrammatically further embodiments of the frames of excitation systems according to the invention; 9 to 11 show three in longitudinal section Details of the execution of the frames shown in FIGS. 7 and 8; Fig. 12 and 13 show diagrammatically or in longitudinal section a further embodiment of a excitation system according to the invention; 14 and 15 show diagrammatically two embodiments part of the system shown in Figs.

In the drawings, 1 denotes the various partial cores of a each pole, which are expediently scrolled in a manner known per se and here can be produced independently of each other.

These partial cores are immediate, e.g. B. with the help of screws 2, on the frame a rigid cage forming rods 3 made of a magnetic material attached.

each rod 3 has the shape of a prism or the partial shape of a cylinder with one extending in the longitudinal direction, d. H. parallel to the axis of the machine Boundary, and its width in the circumferential direction is preferably greater than its thickness in the radial direction. The preferred shape for the cross-section of the bars 3 is a section of a ring.

At the two ends in the width direction of these bars jump radially two partial cores 1 of opposite polarity in front of the inside.

Each bar 3 is separated from the neighboring bar by a window 4, which forms a urimagnetic space between these rods, which the two partial cores of one and the same pole separating radial urimagnetic Space 4a is extended in the radial direction beyond these cores.

The windows 4 offer the following advantages in particular: they prevent that the disturbing anchor reaction flow closes over the frame, whereby this Flow is practically suppressed, they allow the reduction of the weight of the Frame.

The urimagnetic space can be seen except through the window also through solid, urimagnetic materials such as stainless steel, aluminum, etc., produce.

The installation of poles designed in this way is very easy, which is special is an important advantage of the invention. Namely, it is sufficient to place the coils 5 on the two corresponding partial cores of one and the same pole, which are completely independent of each other are to be postponed and then these cores by means of the screws 2 on the rods 3 of the cage forming the frame to be attached.

Below are some exemplary embodiments of the invention Excitation system specified.

In the embodiment shown in Fig. 1, the entire cage formed by a single tubular block of magnetic material, in which longitudinal window 4 in particular by milling or cutting out with the cutting torch which limit the rods 3 are recessed.

Apparently the disturbing armature feedback flow, which is in a circumferential direction in each pole from one pole piece to the opposite Pole shoe seeks to train itself here only via the "bridges" 6 of magnetic material Close material that limit the window 4 at their longitudinal ends, and their the only task is to ensure the rigidity of the entire cage.

The harmful influence of these bridges is as far as possible z. B. reduced in that its longitudinal dimension is preferably steady in its center is reduced, as indicated in Fig. 2, in which the windows 4 ih pointed arch leak.

For the same purpose of reducing the influence of the bridges 6, the length of the window can be equal to that of the partial cores 1 or even greater than these are made (Fig. 3 and 4), then the frame in the longitudinal direction is extended over these cores and even over the coils 5. The Andes Bridges 6 arranged along the longitudinal ends of this frame are then largely located outside the anchor reaction flow, of which only a negligible part can close over this bridges.

An even more advantageous solution for suppressing the armature feedback flow consists in producing the bars 3 separately from a magnetic material and to connect them by bridges 7 (Fig. 5) made of urimagnetic material.

These bridges 7 can, for. B. made of metal, e.g. B. stainless Steel which can be welded to the soft steel forming the rods 3, see above that their attachment by welding (Fig. 5), but also by screws (Fig. 6) or in any other suitable manner.

In another embodiment, the bars 3 of the cage are immediate attached to end plates 8 (Fig. 7), which in particular the bearings for the rotor the machine.

These disks can be made of a urimagnetic material; this however, it is not absolutely necessary especially if they are with the windows 4 in the longitudinal direction lengthening recesses 9 (FIG. 8) are provided are.

The rods 3 are preferably attached to the disks 8 with the aid of longitudinal screws 10, the mutual radial positions of these rods in relation on these disks are precisely determined by contact surfaces forming stops, which are provided in a corresponding manner on these different parts (Figures 9, 10 and 11).

According to a further embodiment (Figs. 12 and 13) the rods are quadrangular 3 in a rack. 11 made of non-magnetic material, e.g. B. aluminum or aluminum alloy, embedded in the manufacture of this frame, which then itself at the same time the non-magnetic space 4, the bridges 7 and even expediently one of the one Forms bearing forming end plate 8 (Fig. 13).

This frame can even be made with both end disks 8 of the cage by creating two partial cages, which are along a radial center plane the machine can be combined.

So that the rods 3 are firmly embedded in the frame 11 so that a rigid arrangement forming a single block is created at the edges of the rods 3 projections or tabs 12 (Fig. 14) are provided, which from the non-magnetic Material of the frame are wrapped in the molding of the same, or it will be in these edges depressions or grooves 13 (Fig. 15) formed, which in the Forming to be filled by this material.

Instead of the air filling the window 4, a fixed, non-magnetic air Using material helps improve the rigidity of the entire excitation system at.

Claims (6)

PATENT CLAIMS: 1. Excitation system for rotating electrical machines, the poles of which are mounted projecting radially on a support frame, each Pole comprises two cores wrapped around the same coil, which in magnetic Respect are practically isolated from each other by a non-magnetic space while two adjacent partial cores of opposite polarity are magnetically connected to one another are, characterized in that each partial core for itself independently both before the partial core belonging to the same pole as well as the part belonging to the neighboring pole Partial core attached to a part of the support frame made of magnetic material is what the latter in a known manner for the production of the magnetic Separation between the partial cores of the same pole filled with non-magnetic material Has slots or windows. 2. excitation system according to claim 1, wherein in a frame made of magnetic material, a window made of non-magnetic material is provided in the area of the room; of the two partial cores of a pole in magnetic Separate respect, characterized in that the window has a greater length than the partial cores. 3. excitation system according to claim 2, characterized in that the frame consists of a single tubular body in which the window are cut out so that the remaining bridges are made of magnetic material have the smallest possible cross-section at the longitudinal ends (Figs. 1 and 2). 4. Excitation system according to claims 1 and 2, characterized in that the frame consists of rods (3) is made of magnetic material, which is made of non-magnetic by spacers (7) Material are interconnected (Fig. 5). 5. excitation system according to claim 1, characterized in that the frame consists of a framework made of non-magnetic material with embedded rods (3) made of magnetic material (Fig. 12). 6. excitation system according to claim 5, characterized in that the u.nmagnetische Frame framework is made in a mold by injection molding or casting and the magnetic bars provided with protrusions or depressions at their edges are anchored in the non-magnetic mass of the framework from the casting process. In Documents considered: German Patent No. 450 295; Swiss U.S. Patent No. 112,082; British Patent No. 179,320; British patent specification No. 5 602 from 1906.