DE4040444C1 - Cardan shaft bearing with two mutually surrounding supports - has axial fold at peripheral point(s) interrupted by cross-fold(s), as bellows deformation section - Google Patents

Abstract

The cardan shaft bearing comprises two supports connected via an annular bellows (3) which deforms in the radial direction. The bellows has at least one axially projecting fold (5) between the radially inner and outer ends of its profile. The fold is interrupted by a cross-fold (4) at one point at least such as a defromation section of the bellows. It projects in the axial direction and is arranged vertically w.r.t. the direction of the fold. ADVANTAGE - Long service life, and low-cost mfr.

Description

The invention relates to a cardan shaft bearing, comprising two mutually enclosing support body by a radial Flexible bellows element made of elastic deformable material are relatively movably connected, wherein the bellows element between the radially inside and outside His profile ends at least one spans the perimeter extending and projecting in the axial direction having.

Such a cardan shaft bearing is from DE-GM 81 00 855 known. After that, an annular element is made of elastic compliant material immediately and firmly between the Shell surface of an inner ring and the inner surface of a Outer ring set. However, it should be noted that the ring-shaped element made of elastic material in the area its folds projecting in the axial direction during its use unevenly due to pressure and shear stresses is charged. The shear stresses cause cracks in the circumference direction of folding, resulting in a severely restricted Service life of the bearing leads.

An elastic mounting is known from DE-OS 37 01 887, where the stiffness properties can be selected either in am The extent of recesses that can be used influences the packing can be.

The invention has for its object a bearing, similar to develop from DE-GM 81 00 855 in such a way that a much longer service life and a more economical one Producibility of the bearing results.

This object is achieved in a cardan shaft bearing of the type mentioned at the outset with the characteristic features solved by claim 1. Take on an advantageous embodiment the subclaims reference.  

In the cardan shaft bearing according to the invention, it is provided that that the circumferential and axial Directional folding on at least one circumference is interrupted by a cross fold, which consists of a Deformation section of the bellows element exists in axial protrudes and perpendicular to the course of the folding is arranged. Through this cross fold, which is convenient is arranged at the location of the bellows element at which the greatest shear stresses occur, the service life of the Camp significantly increased. The cross fold creates thrust effectively suppresses tension, making a more uniform Stress on the cardan shaft bearing.

The fold and cross fold can be made in axial Deformation sections projecting in the same direction be formed of the bellows element. The advantage here is that the bellows element is simple and inexpensive to manufacture.

By arranging several cross folds in the circumferential direction can in particular with known loads on the gimbal shaft bearing the shear stresses in the edge areas of the axially projecting folds arise, limited or be dismantled.

The cross folds can be evenly distributed in the circumferential direction be. It is advantageous that the cardan shaft bearing when it has at least five cross folds, in any one Location can be installed. Even shear stresses caused by possible imbalance of the cardan shaft will no longer limit the service life of the bearing a.

In addition, it is provided that the folding is a profile has at least two in axial between its ends Wrinkles protruding in the opposite direction. Here is advantageous that the folds with the same travel in  radial direction neither on the adjacent interior nor on the the adjacent outer ring, causing damage to the Bellows element, for example by rubbing against the ring areas is excluded.

The object of the invention is based on the as Appendix attached drawing, which is an embodiment of the Cardan shaft bearing shows, further clarified. It shows

Fig. 1 is a cardan shaft bearing in a cross-sectional view and

Fig. 2 is a view of FIG. 1.

The cardan shaft bearing shown in Fig. 1 comprises two mutually enclosing support bodies 1 , 2 , which are relatively movably connected by a bellows element 3 made of elastically deformable material and flexible in the radial direction. The support element 1 is festge directly on the outer ring of a deep groove ball bearing. The second support body 2 consists of a cranked metal ring which has recesses along its circumferential direction, which are penetrated by the elastically deformable material of the bellows element 3 . This embodiment allows the support body 2 to be firmly attached to the bellows element 3 . The bellows element 3 is designed as an annular, self-contained body, with a wall that has a corresponding thickness in all parts. The folding 5 is broken in this example at eight circumferential points by eight cross folds 4 arranged perpendicular to its course. The eight circumferential on the fold 5 angeord Neten cross folds 4 allow any installation position of the cardan shaft bearing, without the use of duration-reducing shear stresses in the elastically deformable material. The fold 5 advantageously has two folds 5.1 , 5.2 projecting in opposite directions in the axial direction.

These two folds 5.1 , 5.2 have the advantage that they can compensate for large movements of the bearing in the axial direction and only touch the support bodies 1 , 2 in the event of extreme deflections in the radial direction. In contrast to known designs with only one projecting fold, this design has the advantage that the sealing bellows 3 is subjected to less mechanical stress and therefore has a considerably longer service life.

FIG. 2 shows the cardan shaft bearing according to FIG. 1 in a view. The eight cross folds 4 can be seen, which are arranged along the fold 5 evenly in the circumferential direction. Such an arrangement allows the attachment of the housing foot 6 , which is attached to the support body 2 , in any position gene, so that in any case the advantageous properties of the propeller shaft bearing according to the invention are retained. The shear stresses that are harmful for the service life are at least reduced, if not completely balanced. The cutouts AA and BB represent the bellows element 3 in the area of the fold-in 5. Cutout BB shows a point at which no cross fold 4 is arranged. Section AA, on the other hand, shows a section through the fold 5 with a protruding deformation section in the same direction, which is designed as a cross fold 4 and is stretchable in the circumferential direction of the bearing and effectively suppresses shear stresses.

Claims (5)

1. Cardan shaft bearing, comprising two supporting bodies which are relatively movably connected by an annular bellows element made of elastically deformable material which is flexible in the radial direction, the bellows element extending at least one over the circumference between the radially inner and outer ends of its profile and has an axially projecting fold, characterized in that the fold ( 5 ) is interrupted at least at one circumferential point by a cross fold ( 4 ) which consists of a deformation section of the bellows element ( 3 ), projects in the axial direction and perpendicular to Course of the folding ( 5 ) is arranged. 2. Cardan shaft bearing according to claim 1, characterized in that the fold ( 5 ) and the cross fold ( 4 ) are formed by in the axial direction projecting deformation portions of the bellows element ( 3 ). 3. Cardan shaft bearing according to claim 1 to 2, characterized in that a plurality of cross folds ( 4 ) are distributed in the circumferential direction. 4. Cardan shaft bearing according to claim 3, characterized in that the cross folds ( 4 ) are evenly distributed in the circumferential direction. 5. Cardan shaft bearing according to claim 1 to 4, characterized in that the folding ( 5 ) has a profile that has at least two axially oppositely projecting folds ( 5.1 , 5.2 ) between its ends.