DE1066978B - - Google Patents

Description

The invention relates to a method for producing cages for needle roller bearings, the windows of which are in the parts adjoining the end rings are wider and in the middle, inwardly recessed part are smaller than the needle diameter.

Needle cages, whose windows have different width, especially as a thin-walled sheet metal cages become known serve their above and located below the pitch circle webs to hold the needles in the windows, while the> between the u needles obliquely passing therethrough to the needle axis web parts, the needles should lead. The web cranking in needle cages with the thin webs required there results in great technical difficulties and necessitates a machining correction of the guide surfaces after the cranking. The low wall thickness of the webs, as is required for the bracket inwards and outwards, also results in a low level of stability. If the end rings are reinforced like ribs to compensate for the thin web thicknesses, other difficulties arise in the manufacture of these cages.

So-called solid window cages have also become known, which have profiled webs, the windows of which have different widths, the window width being larger in the vicinity of the end rings than the needle diameter and the needles are guided in the pitch circle on the web surfaces and at which the window width is mainly in the middle smaller than the rolling body diameter, so that the Needles are secured against falling out in a radial direction. Such cages are made of raw material Profiled with a wall thickness approximately equal to the needle diameter and the window offset punched. Machining is therefore required to produce such cages.

The invention has set itself the task of creating a cage for needle roller bearings in which of a wall thickness is assumed that allows the needle diameters in question of 1.5 to about 5 mm to carry out the non-cutting production of a profiled needle cage.

According to the invention, the following combination, also in the manufacture of roller bearing cages, is better known per se for the manufacture of cages for needle roller bearings, the windows of which are wider in the parts adjoining the end rings and smaller in the middle, inwardly recessed part than the needle diameter Proposed process stages: starting from a pipe section with a wall thickness of about half the needle diameter, the middle part of the cage is first cranked inwards to about the needle pitch circle, then the windows with different widths are produced using the process
of cages for needle roller bearings

Applicant:

Industriewerk Schaeffler o. HG,
Herzogenaurach near Nuremberg

punches, and finally in the narrow middle part of the window the lateral web surfaces are deformed obliquely by punches acting outwards so that the needles can assume the correct position in the pitch circle. ;

The proposed combination of the ^{process steps known from si 1} results in the possibility of non-cutting manufacture of a needle bearing cage which is favorable in terms of storage technology and which previously could only be made by machining.

In a modification of the process described, the production of the cages can also be carried out by the following A combination of process steps known per se take place in such a way that, starting from a pipe stop, with the wall thickness of about half the needle diameter, initially the windows wide over their entire length be punched out as the needle diameter and a closing, expediently in one operation, d middle part of the cage inwards up to about the needle: circle cranked and the lateral web surface " so far from external stamps; deformed so that the needles are in the correct position can take in the pitch circle. . .

. In a further modification of the two beschriebeni manufacturing methods may punched inwardly to about the needle pitch circle the Käfigfenst also in the lateral portions initially approximately equal de needle diameter further before or nai the Durchkröpfen the central cage portion of na> and then dun externally acting stamp simultaneously with de molding of the slope in the middle part and g are optionally calibrated simultaneously with the offset d of the middle part to a dimension d is slightly larger than the needle diameter. In this case, a calibration of the ste is also carried out at the same time as the calibration of the middle web parts

Claims (1)

1 areas of the windows near the end rings. In this way there is not only a compression of the surface in the lateral window parts, but also an exact final dimension, which is larger than the needle diameter, so that the needles get the required tangential play at these points. Should it be necessary in certain cases to guide the cage on the outside or inside on the track of the needles, this can be done in a manner known per se by means of a collar-like reinforcement of the end rings. The new manufacturing process for the cages for needle roller bearings is particularly economical by avoiding any special machining. The cages produced by the new process are also very functional from a functional point of view, since the needles are guided on the web surfaces at their ends in a pitch circle, which results in a wide, radially directed, flat guide surface for the needles in the pitch circle. In the middle, the cage is held in its radial position by the needles on the inclined web surfaces, so that the slight additional stress on the needles is at their least stressed point, while the raceways themselves only with certain inaccuracies in the middle of the inner raceway for guidance of the cage can be used. For the end faces of the needles, there is contact in the center of the tip, i.e. at the lowest speed with a sufficient contact surface. In the drawing, the new manufacturing process is explained, for example. 1 shows the starting pipe in partial section, FIG. 2 shows the same pipe section with a cranking of the middle part, FIG. 3 shows the pipe section according to FIG. 2 in section after the punching of the cage window, FIG. 4 shows a partial view of the punched cage according to FIG. 3, FIG. 5, the windows embossed after punching with the embossing die. FIG. 6 shows the pipe section according to FIG. 1 with punched cage windows for a modified process, FIG. 7 shows the windows stamped after the stamping with an embossing die which extends over the entire length of the window, FIG. 8 shows several cage windows in cross section in the middle part with an 'inserted stamping die and the inner mandrel, FIG. 9 in axial section a window web with an inner mandrel which enables simultaneous crimping and stamping of the cage webs in the central part. A precision tube with a wall thickness of around half the needle diameter is predominantly chosen as the starting material. The pipe section 1 in FIG. 1 is, after being cut off from the pipe in the middle part 2, as shown in FIG Approaching the raceway diameter up to the necessary running clearance. The windows 5 of FIG. 3, which are punched after the tube has been crimped, have, as FIG. 4 shows, a narrow central part 6 and on each side the wider part 7, on the web surfaces 8 of which the needles approach and guide in a pitch circle will. The radially and parallel web walls created during punching have a smaller distance than the needle diameter on their outer jacket lying in the pitch circle, so that the needles would rest on the edges when inserted and could not assume their normal position in the pitch circle. In such webs with a wall thickness of approximately half the needle diameter, the necessary radial freedom of the needle is achieved by embossing the web edges. An embodiment is shown in FIG. 5. With the corresponding die 9, the web surfaces at the narrower parts of the window are beveled in such a way that a large part 10 of their height runs obliquely and only a small part 11 of the original vertical surface remains on the inner jacket. Another method of manufacturing this cage is based on the same tube, in which, in the cylindrical state, the windows 12, as shown in FIG. 6, are incorporated with a width greater than the needle diameter without a shoulder. The tubular pieces of a coordinated length provided with windows are cranked by stamping dies and then provided with a bevel 10 at their edges with a further stamping die, as already shown in FIG. The cranking and embossing of the inclined surfaces 10 can also be carried out simultaneously with the embossing stamp according to FIG. 5, provided that the stamp width is greater than the punched-out width of the window. Finally, in a modification of the two manufacturing processes described, as can be seen from FIGS. 7 and 8, the cage window 13, which is first punched out in the lateral parts approximately equal to the needle diameter, by means of externally acting stamps, simultaneously with the molding of the bevel 15 in the central part calibrate a dimension that is a little larger than the diameter of the needle. Here, the die 14 is designed to be conically tapered over the entire length of the window and at the lower end 16, as can be seen in FIG. In this way, the punch not only calibrates the cranked middle part of the window webs while processing the inclined surfaces, but also calibrates the side window parts adjacent to the end rings of the cage to an exact finished size, which is slightly larger than the needle diameter. This gives the needles on the side parts of the window the exact tangential clearance required. The punching out of the window from the pipe section can be carried out according to the method described last before or after the central cage part is crimped through. If the windows are punched out before the middle cage part is cranked through, the cranking and also the embossing of the inclined surfaces can be carried out simultaneously with a punch, provided the punch width is greater than the punched width of the window. In this case, the inner mandrel 17 is given the shape shown in FIG. 9 in a longitudinal section. The inner mandrel is thus provided with a depression 18 corresponding to the extent of the cranking at the point where the cranked central parts come to rest, into which the central web parts are pressed when the mandrel 14 descends. Patent claims: 1. Process for the manufacture of cages for needle roller bearings, the windows of which are in the end rings adjacent parts wider and in the central, inwardly recessed part smaller than the