DE1844460U - BALL SWIVEL. - Google Patents

Description

Ball slewing ring The innovation relates to double-row ball slewing rings, such as for example for the center-free storage of the rotating superstructures of excavators, Cranes and other slewing gears can be used on the stationary lower part. An essential feature of such slewing rings is the fact that they in contrast to normal rolling bearings, which have a more or less high speed rotate, only perform slow turning and swiveling movements. So you will too referred to as a pivot bearing. Because this swivel bearing in addition to axial and radial forces also have to absorb tilting moments, their diameter is usually relatively large chosen.

As a bearing design of the swivel bearings are used today in many of the cases the double row angular contact ball bearings known from roller bearing technology are used. you will be manufactured as ready-to-install, completely sealed machine elements. To the drive the swivel mechanism is a toothed ring that is firmly connected to one of the bearing rings and on which the drive pinion rolls. With the known swivel bearing constructions this gear rim is carved out of one of the bearing rings.

The stresses to which the ring gear is subjected are but partly completely different from those of the ball tracks. The load of the raceways consists of the approximately punctiform pressure that the balls in Exercise standing still and while rolling. The tooth flanks of the ring gear, however, are stressed by a linear pressure with simultaneous sliding of the tooth flanks on each other. For these reasons one has already tried to separate the ring gear and made of a different material than that of the race, that of the specific Stress of the ring gear was adapted. This separately manufactured ring gear was then flanged to the camp. However, this embodiment remained on a few Special cases are limited because it is too complex and also usually builds too high.

The essential part of the known slewing rings results from the fact that the ring gear and the ball races as a result of the divergent Types of stress, to which there are also different levels of stress, very often have very different service life values. Report now, for example the toothing in a pivot bearing in which the ring gear consists of one of the bearing rings is worked out, the entire bearing ring must be replaced, although the ball races in themselves still have a perfect condition. Same is the case when conversely, the ball races are damaged during operation.

According to the innovation, this disadvantage is a double-row angular contact ball bearing trained slewing ring, especially for swiveling bodies of excavators, Rotary cranes and the like eliminated in that the bearing ring with the in the axial direction external ball grooves made of three superimposed and preferably through Screws connected single rings consists, with the two outer rings the ball grooves have and the intermediate ring is designed as a toothed ring. The three rings can so individually manufactured and exchanged. It is also in a further embodiment the innovation possible that the ring gear from one of the different stresses corresponding other material exists than the outer rings.

Other features and benefits of the innovation are shown below Description explained with reference to the drawing, in which an exemplary embodiment of a slewing ring according to the invention is shown in axial section.

In the drawing, 1 denotes the undivided bearing ring, the is arranged in the embodiment as a bearing outer ring and the bearing collar 2 with the two raceways 3 and 4 for the one above the other. arranged rows of balls 5 and 6 has. The inner ring is split. It is made up of the two outer rings 7 and 8 with the raceways 9 and 10 and the one in between Gear rim 11. The gear rim 11 is made of a different material than the outer rings 7 and 8, which corresponds to the particular type of stress on the ring gear. The rings on top of one another are fastened by screws, preferably by fitting screws, which prevent mutual displacement of the rings in the circumferential direction, with each other tied together. The ring gear 11 is centered in the radial direction by the rotary stages 12.

In addition to the advantages already discussed, the construction described has Compared to the previously common double-row slewing rings, there are additional manufacturing technology Benefits. So the blanks for the bearing rings, which are usually bent from rods and butt-welded, from lightweight profiles with a rectangular cross-section are manufactured. In particular, in the illustrated embodiment the two outer rings of the split bearing ring made of blanks with the same Cross-section can be produced, which in turn facilitates the storage of raw material. Another advantage results from the reduction of the machining work, since the Do not turn the U-shaped groove of the split ring machined from the solid got to.

Claims (2)

Claims for protection 1. Designed as a double row angular contact ball bearing Ball slewing ring, in particular for swiveling superstructures of excavators, slewing cranes and dem., characterized in that the bearing ring with the outer in the axial direction Ball grooves (9,10) made up of three superimposed and preferably by screws connected single rings consists, the two outer rings (7, 8) the ball grooves have and the intermediate ring (11) is designed as a toothed ring. 2. slewing ring according to claim 1, characterized in that the Toothed ring (11) from one of the other corresponding to the different stress Material consists of the outer rings (7,8)