DE1185899B - Process for the production of thin-walled bearing rings for needle and similar bearings - Google Patents

Description

Process for the production of thin-walled bearing rings of needle bearings and the like Storage The invention relates to a method for manufacturing thin-walled Bearing rings of needle and similar bearings with elongated rolling elements, which on on one side a convex raceway and on the other side a cylindrical one Have seat.

So far it has been customary to use the convex raceway of such bearing rings with the help of intricate tools or molds as well as complicated kinematic devices to guide these tools along the generatrix of the surface to be machined to manufacture.

The object of the invention is to create a method in which it a convex or concave surface is possible in an extremely easy way to achieve extremely high accuracy without complicated tools.

An essential feature of the invention is that the curvature of the track due to the larger seat oversize with the bearing bracket (shaft or housing bore) in the middle Part of the bearing ring than is achieved at the ends. By this invention Profile reversal when pulling on or inserting the bearing ring on the shaft or in the housing bore is made from an originally cylindrical surface, which is with can be easily manufactured with great accuracy and then hardened in the usual way, a curved track of the highest precision.

Further details, advantages and features of the invention emerge from the following description. In the drawing, the invention is illustrated in more detail by means of a series of axial sections, namely FIG. 1 a cylindrical-tubular preliminary workpiece, FIG. 2 the preliminary workpiece after permanent or elastic deformation, F i g. 3 a ring with different wall thicknesses, which by removing metal on the concave surface of the preliminary workpiece according to FIG. 2, FIG. 4 this ring after hardening of its cylindrical outer surface, F i g. 5 the ring according to FIG. 4 after it has been drawn onto the shaft intended for its reception, with the profiles reversed, FIG. 6 shows the ring according to FIG. 6, which is held elastically deformed during the metal removal. 3 after the elimination of the elastic deformation with reversal of the profiles, F i g. 7 the ring according to FIG. 6 after hardening of its cylindrical surface, as it serves as a workpiece for a renewed reversal of the profiles when inserting into a bore, FIG. 8 the ring according to FIG. 7 after it has been inserted into a bore with the profiles reversed, FIG. 9 shows another possible use of the ring shown in FIG. 6 as an inner bearing ring, the outer surface of which has been hardened, FIG. 10 the ring according to FIG. 9 after being drawn onto the shaft intended for its inclusion, and FIG. 11 to 13 needle roller bearings with bearing rings made according to the invention.

To make the drawing easier to understand, the ones are hardened Bearing ring surfaces shown by thick lines. For the same reason furthermore, the radii of curvature of the convex surfaces of the bearing rings are considerably shortened shown.

In Fig. 1 illustrates a preliminary workpiece 1 formed by a pipe section with straight generatrices. Accordingly, the outer surface 2 and the inner surface 3 of the preliminary workpiece 1 are also cylindrical.

This preliminary workpiece 1 is, as shown in FIG. 2 shown, permanently or elastically deformed. This gives the preliminary workpiece a concave outer surface 4 and a convex inner surface 5. Both surfaces 4 and 5 are parallel to one another even after the deformation.

Then, as shown in FIG. 3, 1 is a metal layer removed from the outer surface of the preliminary workpiece (dash-dotted line), so that a ring is formed with a cylindrical surface 6 having a rectilinear outer generatrix. The inner surface 5 remains convex without any change. The cylindrical outer surface 6 of the ring is then hardened. The inner surface 5 remains unchanged. The ring prepared in this way is then pulled tightly onto a shaft 7 , as shown in FIG. 5 can be seen. When the ring is pulled up, an elastic Rin deformation takes place with a profile reversal, namely the convex inner surface 5 is deformed into a cylindrical seat surface 8 , and conversely, as a result of this deformation, the cylindrical surface 6 is converted into the desired convex surface 9 forming the raceway, which are necessary for the proper working of the camp, according to the F i a. 11 or 12 required dimensions of the inner bearing rings 10 onv .., eist. In these figures, 11 denotes the needles and 17 and 12, respectively, denote the outer bearing rings which are inserted into a bearing bearer 13 .

In a Abwan (not iiung äes method of the invention is the g in F i. Vorwerk piece shown 1 1 C change, but only elastically deformed, namely so far that its shape to that of the F i g. 2 corresponds, d. H. To it has a concave outer surface and a convex inner surface, This is done, for example, with the aid of a mandrel, not shown, with a concave shape.

While the preliminary workpiece 1 is kept in the state of elastic deformation, such a metal layer is removed on its concave outer surface that the concave outer surface is transformed into the cylindrical surface 6 ( Fig. 3) with rectilinear C- shaped shapes. The convex inner surface remains unchanged.

The ring thus formed is then returned to its initial state by removing the mandrel and thus eliminating the elastic deformation to which it was subjected (FIG. 6). The cylindrical outer surface 6 according to FIG. J converted into a convex outer surface 14. The inner surface 5 simultaneously assumes its original cylindrical shape 3 again.

Depending on whether the Rina obtained in this way is to be used to manufacture an outer or an inner bearing ring, its inner surface 3 or its outer surface 14 is hardened.

F i g. 7 shows the case in which the in FIG. 6 , the ring illustrated is given a hardened inner surface 3 . The ring prepared in this way is forced into a cylindrical bore in the bearing bracket 13 ( FIG. 8). In the process, the convex outer surface 14 is converted into a cylindrical seat surface 15 with a rectilinear generatrix, whereas the cylindrical inner surface 3 assumes a convex shape, as shown at 16. The raceway surface 16 formed in this way has the final shape and dimensions that are required for proper function in a needle roller bearing, as shown in FIGS. 11 or 13 is illustrated, in which 11 the needles and 10 or 18 each represent the inner bearing rings mounted on a shaft. F i g. 9 shows the case in which the ring of FIG. 6 has been hardened on its outer, convex surface 14 in order to form an inner bearing ring 19 drawn onto a shaft 7 ( FIG. 10) . The running track then has the final shape and dimensions that ensure perfect work.

The previously described method of profile reversal can also be used for a preliminary workpiece according to FIGS . 3 and 6 are applied, which has been produced in a different way, namely by non-cutting shaping.

As can be seen from FIGS. 11 to 13 , the above-described bearing rings 10, 17 and 19 can be used in combination, for example in the needle roller bearing according to FIG . 1 l, and the outer bearing ring has' in which both the inner bearing ring 10 17 convex tread, or one of them, the inner ring 10 in F i 12 or the outer ring 17 in F i g. 13, can have a convex running surface and in combination with a bearing ring with a cylindrical running surface 12 in FIG. 12 and 18 in FIG. 13 ver,% 7 "will be ended.

Claims (2)

Claims: 1. A method for producing thin-walled bearing rings of needle bearings and similar bearings with elongated rolling elements, which have a convex raceway on one side and a cylindrical seat surface on the other side, characterized in that the raceway curvature due to larger seat oversize with the bearing carrier ( Shaft or housing bore) is achieved in the middle part of the bearing ring than at the ends. 2. The method according to claim 1, characterized in that on an annular or tubular Vorwerkstück- which is convex to the extent of the track curvature on the side certain to the seat and cylindrical on the side certain to the track, by radial compressive forces when assembling with the bearing carrier the convex seat surface side can be deformed cylindrically and the cylindrical raceway side convexly. 3. The method according to claim 2, characterized in that the side intended for the raceway is hardened before the deformation. 4. The method according to claim 2, characterized in that the Vonverkstück is permanently deformed. 5. The method is * according to claim 2, characterized in that the preliminary workpiece is elastically deformed. Documents considered: German Patent No. 212 785; British Pat. No. 192,474.