DE1910840A1 - Two-part cage for thrust roller bearings - Google Patents

Description

Two-part cage for axial roller bearings The invention relates to Formation of a two-part cage for axial roller bearings, in particular for axial cylindrical roller bearings.

The known two-part axial cages according to US Patent 1,324,769 or German utility model no. 1.958.365 consist of a solid, ring-shaped Base body, in which the pockets for receiving the rolling elements in from the outer edge Form of blind holes are drilled. After inserting the rolling elements, the Bags closed by means of an outer retaining ring. A similar execution describes French patent specification No. 1,489,628, according to which instead of a outer retaining ring used in the individual pocket holes inserted discs will. In both cases, the rolling elements are both guided and held by the cage body, its production by the required exact drilling the pockets is quite expensive. Another well-known multi-part axial cage according to the German utility model 1.960.548 also consists of a massive Basic body with rolling element pockets machined alternately from the outside and from the inside, after the rolling elements have been inserted by means of an outer and an inner locking ring getting closed. In this version, too, the massive base body has both the task of the rolling element guide as well as that of the rolling element holder, whereby creating the pocket holes is a laborious process. Furthermore it is for axial cages according to US Pat. No. 2,399,669 and according to the German utility model 1,954,229 known, closed on all sides in the cage body Incorporate pockets with straight side walls and the mounting of the rolling elements to be effected by means of attached or inserted retaining parts.

In all of the cases mentioned, the manufacture of the cage is uneconomical and the weight of the cage is relatively large. In contrast, the invention set the task of creating an easy-to-manufacture, two-part axial cage, which is characterized by its low weight and a large number of rollers. The solution to this Task provides that an annular cage main part made of sheet metal with is provided radially inwardly open pockets, which by an annular, with Cage auxiliary part provided with pockets that are open radially outward and axially holding the rollers are closed by the web tabs that have remained between the rolling element pockets of the main cage part in radially extending grooves of the web tabs of the auxiliary cage part intervention. The main part of the cage can be a flat disk or it can be L-shaped or T-shaped cross-section.

The drawing illustrates embodiments of the invention Axial rolling bearing cages Fig. 1 is a front view of the cage; Fig. 2 is a partial cross-section along the line II-II in Fig. 1; Fig. 3 is a partial longitudinal section along the line III-III in Fig. 1 and Figs. 4 and 5 are corresponding partial longitudinal steps of modified embodiments.

That is the guidance of the rolling elements and the stresses that occur The main part 1 of the cage that takes over is an annular one made of sheet metal Body with pockets 2, which are open radially inward, for receiving the cylindrical rolling bodies 3, in the exemplary embodiment square cylindrical rollers. The distance of the lateral Pocket boundary surfaces from one another is by the amount of tangential clearance required the rolling element larger than the rolling element diameter. The outer pocket boundary area is provided in the middle with an arcuate bulge 4, so that the rolling element has only a linear system, which means that the amount of sliding friction is minimal is.

According to FIGS. 1 and 2, the main cage part 1 is a flat disk of Strength appropriate to the stress. FIG. 4, however, shows a main cage part 11 L-shaped cross section and FIG. 5 shows a main cage part 12 with a T-shaped cross section. The deformation of the sheet gives the part greater rigidity, so that thinner sheets can be used for these cage parts. As material for the The main part of the cage is primarily sheet steel, but can also be used Brass sheets or sheets made of chrome-nickel steel alloys are used.

An annular auxiliary cage part is used to hold the rolling elements 3 axially 5 made of plastic with or without fiberglass reinforcement, the thickness of which is somewhat is smaller than the rolling element diameter.

This part 5 has outwardly open pockets 6, the side surfaces are provided on both sides with protruding retaining lugs 7 in the pocket space, the prevent the snapped-in rolling element from falling out.

In the remaining between the pockets 6 web tab 8 of the Cage auxiliary part 5 are radially extending grooves 9 formed, the width of the Material thickness of the main cage part 1 corresponds to and in which the web tabs 10 of the Cage main part 1 or 11 or 12 engage.

When assembling the cage, the two ring-shaped parts 1 and 5 inserted into one another offset by half a pocket division, so that the web tabs 10 of the main part 1 to lie in the pockets 6 of the auxiliary part 5 come.

Then the two parts are divided by half the pocket rotated against each other, the web tabs 10 in the grooves 9 of the web tabs 8 enter. The rolling elements 3 are in the pockets that are now closed all around snapped into place and in turn prevent the relative rotation of the two parts 1 and 5, which are thus combined to form a ready-to-install unit.

P a t e n t a n s p r ü c h e

Claims (5)

P a t e n t a n s p r ü c h e: 1. Two-part cage for axial roller bearings, in particular cylindrical roller bearings, characterized in that a sheet metal, the ring-shaped main part of the cage is provided with pockets that are open radially inward, the one provided by an annular, radially outwardly open pockets, the Rollers axially retaining cage auxiliary part are closed by the between the rolling element pockets remaining web tabs of the cage main part in radially extending grooves of the Engage the bar flap of the cage auxiliary part. 2.) Two-part cage according to claim 1, characterized in that the cage main part has an L-shaped cross section and the shorter leg the outer edge of the cage forms. 3.) Two-part cage according to claim 1, characterized in that the main cage part has a T-shaped cross-section, in the middle leg of which Punched out pockets that are open radially inward for receiving and guiding the rolling elements are. 4,) Two-part cage according to claim 1 to 3, characterized in that that the outer edge of the pocket delimitation of the main cage part in whole or in part protrudes in an arc shape. 5.) Two-part cage according to claim 1, characterized in that the cage auxiliary part is made of plastic and inside the radially outwardly open Pockets is provided with projections for the axial support of the rolling elements. L e r s e i t e