DE584995C - Runner for electrical machines with winding grooves and flanged shaft stubs that also extend over the face of the runner body - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
SEPTEMBER 27, 1933

REICH PATENT OFFICE

PATENT LETTERING

M 584995 CLASS 2Id ¹ GROUP

General Electricity Society in Berlin *)

Patented in the German Empire on February 21, 1931

There are rotors for electrical machines are known in which parts of the winding over the end faces of the rotor body run. Such runners are usually at the End faces flanged shaft stubs. The arrangement of the fastening bolts is countered here for the shaft flanges certain difficulties in so far as it is not without Another approach is to distribute these bolts as evenly as possible around the circumference, because the same in the area of the winding parts running over the end faces could previously only be brought under surrender of the winding space.

A well-known construction comes very close to the task at hand in that the Fastening bolts in the area of the winding parts crossing the end faces partly into the. Laterally delimiting the face grooves Teeth of the rotor body, partly in the end grooves on the outside Engage slot locks.

But this version also has certain difficulties, mainly in the workshop Type, the elimination of which seems desirable.

The invention makes this possible by taking advantage of the fact that the End faces on the circumference of the rotor body also in the area of the winding slots as a result the strong rounding of the coil corners a ring that runs around the rotor body Zone of winding parts remains completely free and also, as a magnetic cross-section is not needed. Depending on the shape and extent of this zone, the rotor body is overlaid on each face a certain axial length offset on a smaller diameter. This tapering of the rotor diameter is meanwhile in their axial extension and in their purpose fundamentally different from the usual Reduction of the rotor body diameter to a relatively short piece at the end faces, in order to only create centering strips for the stub shafts. Over that detached part of the body of the runner According to the invention, either the shaft flange engages directly with a ring or brim-shaped part over and is fastened there by means known per se, or there is a special one with the shaft flange on the stepped part of the rotor body non-contiguous intermediate ring attached, which acts as a link between the rotor body and shaft flange has the task of receiving the fastening means for the latter.

*) The patent seeker stated as the inventor:

Theodor Saehrig in Berlin.

These arrangements offer the advantage that the fastening means of the shaft flange are arranged in an annular zone of the rotor body that is not required anyway for accommodating winding parts and as a magnetic cross-section, so that they neither take up valuable space there nor interfere with the structure of the rotor in any other way ,
The invention is to be described in some exemplary embodiments with the aid of the drawings. Figs. I, 2, 3, 5, 7, 9, 11, 15 and 17 show, in various exemplary embodiments, longitudinal sections through the parts of a rotor located on one end face, and the upper half of these figures shows a section through the center of the pole the section line AB, while the lower half represents a section through the neutral zone, in such a way that the section line CD passes between the central rotor tooth and the innermost coil, so that the latter is exposed.

Fig. 4 shows the face of the rotor body according to Fig. 2 in the view before Attachment of the shaft flange as shown in Fig. 1. On the right-hand side, a broken-out part is intended to show the position of the winding to show in the axial grooves and their attachment by the groove locking wedges.

Figs. 8, 10, 12 and 16 show cross sections through these arrangements along the section line EF. Fig. 13 shows the type of engagement of the intermediate ring in the rotor body and the shaft flange according to Fig. 11 on an enlarged scale. Figs. 6, 14 and 18 show details of other embodiments.

Figs. 1 to 4 show an embodiment before and after the union of the shaft flange with the rotor body. Fig. 2 shows in the upper half a longitudinal view of the rotor body, in the lower half a longitudinal section along the section line AB of Fig Runner body and 2 'denotes the face grooves guided over the end faces of the runner body. The grooves are laterally limited by the rotor teeth 3 or 3 ', as can be seen from the grooves left free from the winding for the sake of clarity. The shape of the grooves can be seen in particular from Figs. 3 and 4. The winding 4 is embedded in the grooves and secured in its position by means of the groove locking wedges 5 and S ', with metallic shims 6 and 6 to protect the insulation of the winding 'are placed under the slot wedges.

Fig. 2 also shows how the rotor body on the outer circumference of the end faces on a smaller diameter is offset.

A ring-shaped or rim-shaped part engages over this offset part of the rotor body Part 7 of the shaft flange 8. For fastening the shaft flange, this part 7 is like a union nut with a screw thread provided, which is in engagement with a corresponding thread on the stepped part of the rotor body. Fig. 3 shows Rotor body and shaft flange in the completely screwed together state. After this Screwing together the shaft flange prevents unintentional loosening in any way known way secured. This can be done, for example, as shown in Figs. 3 and 4, by means of worm screws 9, several of which can be distributed around the circumference and half in the rotor body, half engage in part 7 of the shaft flange.

Instead of making the annular part 7 with the shaft flange 8 in one piece, it can also be designed as a separate ring as shown in Fig. 6, with it on the smaller one Screw on the part of the rotor with the offset diameter and then the shaft flange 8 by means of separate fastening elements, for example screw bolts 9 'or 9 ", fasten to it. Fig. S shows the Assembling the parts. As this figure shows, pervade in the realm the magnetic pole the fastening bolts 9 'the ring 7 and find their nut thread in the magnet body i. Then another securing of the ring 7 against Loosening with worm screws or the like superfluous. In contrast, in the area of the neutral zone the fastening bolts 9 "only engage in the ring 7. Fig. 6 shows the ring with it its bores for the fastening bolts 9 ', 9 "drawn out.

The attachment of the ring 7 on the rotor body can also be done in different ways take place in another way, for example by shrinking, by means of engagement of tooth-like or claw-like projections, dovetails, bayonet-like Organs as well as by means of screw bolts or equivalent fasteners.

In order to give the ring 7 the greatest possible width in the direction of the rotor axis by moving it as close as possible to the corner of the coil, that of the corner of the coil can facing inner edge of the ring be bevelled, as shown in Figs. 7, 9, II and 13 is shown.

Figs. 7 and 8 show an embodiment in which the ring 7 by shrinking on the smaller diameter

knife offset part of the rotor body is attached. The shaft flange is on the ring 8 screwed on by means of the fastening bolts 9 'and 9 ". It is evident that as a result of the completely closed Shape of the ring 7 the number and the distribution of the fastening bolts any, so it can also be perfectly uniform around the entire circumference.

ίο Penetrate as with the arrangement according to Fig. 5 the bolts sitting in the area of the magnetic poles push the ring 7 into the rotor core i, while the bolts 9 ″ located in the area of the winding grooves are only in the ring 7 find their hold. By means of special measures, the ring 7 can also prevent rotation be secured in the circumferential direction. Figs. 9 and 10 show an embodiment of such a fuse. There he owns Ring in the area of the magnetic pole projections io, which are in corresponding recesses of the ring seat of the rotor body. Since the same in these figures Parts are given the same reference numbers as in the previous figures, it is not necessary to go into them in detail. Between the ring and the corners small spaces remain between the coils. Wherever these are bothersome, you can join Filler pieces 11 made of light metal, wood or suitable insulating material.

In certain cases it may be desirable

the ring 7 instead of being shrunk on in some other way with the rotor body and to connect the shaft flange. Fig. 11,. 12 and 13 show an embodiment for such a fastening method. Here the ring 7 is on its with the rotor body 1 and the shaft flange 8 in contact with flanks having a circular shape Grooves, for example of the cross-sectional shape shown in Fig. 13 on an enlarged scale fitted. These grooves engage in correspondingly shaped grooves in the end faces of the rotor body 1 and the Shaft flange 8. The arrangement of the fastening bolts is the same here as in the previous images, d. H. the bolts 9 'penetrate the magnetic poles Ring and find their nut thread in the solid rotor body 1, in the neutral one On the other hand, the bolts 9 “only engage in the ring” 7 in zones.

Nevertheless, with the arrangement according to Figs. 11 to 13, the ring is shrunk on because of the exact fit of the grooves • in the three parts is not feasible, the engagement of the grooves, which are sawtooth-like in cross-section, allows mutual displacement of the three parts do not close, and the latter have practically the same amount of elongation under the action of centrifugal force, so that the good intervention also obtained at the operating speed and even with occasional overspeeding remain. The cross-sectional shape of the RiI-len can also be different from the one in Fig. 13 be illustrated sawtooth-like, for example rectangular, helical or the like. You can also, if this seems appropriate, this method of attachment with the apply at the same time as shown in Figs. 1 to 6.

Since in arrangements of this type, the grooves in the axial direction of the full load-bearing Reduce the cross-section of the ring by an amount, albeit not a considerable amount strive to make the ring as wide as possible in the axial direction. To this Purpose in Fig. 11 is on the one hand the inner edge adjacent to the corner of the coil of the ring 7 beveled in the manner already mentioned. On the other hand, you can see how from Fig. 11 shows that the corner of the coil is polygonal instead of round, which means " can widen the ring a little more.

Instead of the projections 10 shown in FIGS. 9 to 13 serving as drivers can also, as Fig. 14 shows, in corresponding grooves of the ring 7 on the one hand and the Rotor body 1 and the shaft flange 8 on the other hand in the form of the known spring wedges Fit trained driver pieces 12.

Figs. 15 and 16 show another one Attachment of the ring 7, both against rotation in the circumferential direction as well against axial displacement. There are namely radial in the area of the magnetic poles Screw bolts 13 penetrating into the rotor body 1 through the ring 7 are provided. The arrangement of the screw bolts 9 'and 9 "remains, however, as in Figs. 15 and 16 show, expediently unaffected by this.

In all of the exemplary embodiments, you will be able to use appropriate constructive training and by using non-magnetizable or little magnetizable material for the rings 7 and the shaft flange 8, that these parts do not have a significant magnetic shunt to the useful field form. Appropriately, the rings 7 no can be a reasonable distance over the face of the offset part of the rotor body protrude.

While the winding parts 4 embedded in the grooves 2 on the rotor circumference are at least are cooled by the rotor circumference around which the coolant flows, the winding parts embedded in the face grooves 2 'are without cooling. Such can according to another shown in Figs. 17 and 18 Embodiment of the invention can be easily produced by the shaft

Flange 8 is equipped with holes 14 and 15 and in the contact surface of the shaft flange with the ring 7 like a fan blade acting, appropriately curved Ausirtskanäle 17 arranged for the coolant. The latter then occurs according to the arrows drawn through the channels 14 and 15, distributed extends over the end space 16 and finally escapes through the curved channels 17 outwards, with the inner curved arrow indicating the direction of rotation.

The arrangements shown and described in the drawing are only a few Embodiments that allow various changes in the details, without that something is changed by such deviations in the essence of the invention.

Claims (10)

Claims: 20 1. Runner for electrical machines with also over the front sides of the runner body running winding grooves and flanged shaft stubs, characterized in that the rotor body on each face is reduced in diameter as much as the rounding of the Corners of the winding coils and on these remote parts of the rotor body the shaft flanges either directly by means of one-piece ring-shaped overlapping Parts with a strong cross-section or indirectly by means of separately set strong intermediate rings are fastened in such a way that these fastening means do not increase the axial length of the rotor body. 2. Runner according to claim 1, characterized in that the smaller Provide parts of the rotor with offset diameter with a coarse external thread are and the overlapping ring-shaped parts of the shaft flanges provided with corresponding internal threads as Nut are screwed over the stepped parts. 3. Runner according to claim 1, characterized in that the separately attached Intermediate rings provided with internal thread and on the external thread having stepped parts of the rotor body as nuts are screwed on. 4. Runner according to claim 1, characterized in that the intermediate rings on the recessed parts of the rotor body are shrunk on. 5. Runner according to claim 1, characterized in that the intermediate rings with concentric grooves are provided with corresponding grooves in the rotor body and are in engagement in the shaft flange, 6. Runner according to claims 1 and 3 to 5, characterized in that the Shaft flanges are fastened to the intermediate rings by means of axial screw bolts. 7. rotor according to claim 6, characterized in that the axial fastening bolts for the shaft flanges only engage with their thread in the intermediate rings in the area of the winding grooves, while in the area of the magnetic poles they are passed through the intermediate rings and screwed into the pole cores are. 8. Runner according to claim 6, characterized in that the intermediate rings in the Areas of the magnetic poles on these by screwed radially into the rotor body Bolts, but the shaft flanges around the circumference by means of axial bolts are attached, of which those located in the area of the magnetic poles may be penetrate through the intermediate rings into the rotor body. 9. Runner according to claims 1 to 8, characterized in that the intermediate rings and possibly also the rotor body and the shaft flange Facilities for absorbing tangential forces are equipped. 10. Runner according to claims 1 to 9, characterized in that in the shaft flanges, the intermediate rings or in both parts acting like a fan Channels are recessed, which through holes in the stub shaft for cooling air suck up the runner. For this purpose ι sheet of drawings