DE1011676B - Rolling bearing with a two-part capsule housing made of plastic that acts as an elastically flexible cushion - Google Patents

Description

Rolling bearing with a two-part that acts as an elastically resilient cushion Capsule housing made of plastic material The invention relates to a roller bearing an elastic inserted between the bearing body and the bearing housing under tension Upholstery consisting of a two-part capsule housing made of oil-resistant plastic Plastic, such as B. polyurethane.

With the attachment of ring-shaped, sleeve-shaped or capsule-shaped cushion bodies in the case of roller bearings, the primary purpose is the unpleasant and in many cases to avoid disturbing running noises of rolling bearings by the fact that the smallest Manufacturing inaccuracies of the rolling bearing in the orbital movement arising random Pulses are isolated by an elastic intermediate layer so that they do not arise the metallic parts surrounding the roller bearing are transferred and these parts can trigger natural vibrations, which causes the structure-borne noise emitted as running noise caused. In addition, the elastic pads can help the rolling bearings no longer with the extremely precise tolerance previously required for assembly need to be produced.

If the upholstered body, as it has already been proposed several times is designed as a capsule housing completely enclosing the bearing body, then in addition to vibration isolation, there is also a reduction in noise emissions achieved by the metal to metal friction of the rolling elements on the running surfaces caused. At the same time, such a capsule housing forms a well-sealed one Receiving space for the lubricant, and it protects the roller bearing and the lubricant against dirt and other adverse external influences.

On the one hand, the capsule housing is intended to act as an elastic cushion for small vibrations attenuates lower frequencies, which means the use of a plastic material from a makes certain spring softness necessary, on the other hand, the elastic compressibility of the upholstery should only be small, so that there are no too large shifts of the circumferential can occur in relation to the stationary machine part. When the deflection the shaft exceeds a certain tolerance, for example in the case of electric motors the proper orbital movement of the rotor is disturbed and for drives with a large Tooth pressure or with a large belt or chain hoist an encapsulation of the rolling bearings be impossible in the first place.

To avoid these difficulties, it is necessary to install the capsule housing with high preload between the roller bearing body and the bearing housing in the bearing point. The recently developed oil-resistant, elastic plastics, which have a specific load capacity of 100 kg / cm2 and more, allow this without further ado, while the materials that were only available a few years ago did not allow great preload because their specific load capacity, e.g. B. that of natural rubber, which cannot be used for the encapsulation of rolling bearings because of its non-resistance to the effects of oil and grease, is around 4 kg / cm2 and that of synthetic rubber is around 12 kg / cm2.

In previous proposals for encapsulating rolling bearings one has therefore content with an elastic cushion ring just such a tension to give that it prevents the one race of the rolling bearing from rotating. Such However, arrangements to be addressed as bearing brakes are only for bearings with small ones Applicable loads and would be for rolling bearings with higher loads to the lead to relocation difficulties outlined above. Besides, it also appeared Required with regard to the assembly of the bearing and the cushion body, the preload to keep the elastic upholstery as small as possible.

According to the invention, a large bias of the in a known manner two-part capsule housing when it is in the Bearing is installed, achieved in that the capsule housing in the longitudinal direction of the shaft, preferably in the shaft plane, is subdivided so that the two capsule halves during assembly through the bearing cover with high pressure in the dividing joint against each other and are pressed into the bearing point, with opposing flanges both capsule halves interlock with projections and groove-shaped recesses can. Due to the subdivision according to the invention, the for the applicability of elastic capsule housings for roller bearings in almost all cases, The requirement to be met that the assembly of an encapsulated roller bearing body should not cause much greater difficulties and inconveniences than the assembly of a non-encapsulated rolling bearing. With the perfect seal the mutual contact surfaces of both capsule halves also have the advantage of that lubricant losses are completely excluded.

The extraordinarily firm, permanent restraint of the elastic Capsule housing prevents an inadmissibly large displacement of the shaft or the roller bearing body by the forces acting on the roller bearing, without the main task of the capsule housing suffers a loss, which is that the capsule housing as a vibration damping and noise-reducing cushion should be effective.

The inventive concept explained above can also be used in the manner be realized that the capsule housing is designed as an annular disk, from has another capsule housing part removable side wall that when attaching the the bearing point closing ring cover in the outer jacket part of the capsule housing is clamped firmly.

According to a further proposal of the invention it is provided that the inner surfaces of the two side walls of the two-part capsule housing in the shape of a truncated cone to run towards the shaft increasing mutual distance, so that on Lubricant flowing down the side walls from the deepest point of the rolling bearing is fed. The request for protection of the claim aimed at this measure 3 only applies in connection with the main claim.

In the drawing, the invention is illustrated in two exemplary embodiments.

In the examples shown, there is a single row according to the standard Transverse bearing provided, the outer race with a, the inner race with b and the rolling elements arranged between the two races, for example Balls can be denoted by c.

The inner race b is, as usual, on the shaft d up to the fixed System pushed against a shoulder, while the outer race a in the for him provided bearing point f of either executed divided or with one centered ring g or cover equipped bearing housing h takes place.

In Fig. 1, the damping element i has a U-shaped cross-sectional profile. The annular disk-shaped side walls i1 are dimensioned so long that they extend over the entire height of the roller bearing a, b, c and, with their collar-like, thickened inner edge edges i2, lie tightly against the shaft d. The damping element designed in this way to form a capsule housing for the roller bearing is subdivided in a plane passing through the shaft center line, as can be seen in particular from FIG. 2 of the drawing, in which the capsule housing is shown in an end view. The two capsule halves are provided with flanges i3 at the dividing points of the annular disk-shaped side walls i1, for their accommodation in the flanges of the bearing housing h, which is divided in the longitudinal direction in the manner known in plain bearings, corresponding recesses are formed. One (in FIG. 1 the upper) flange i3 is designed with a wide central projection i4 on the surface with which it rests on the mating flange; which takes place in a groove-shaped recess i5 of the counter flange. When assembling the two bearing housing halves, the two capsule halves previously wrapped around the roller bearing a, b, c are strongly pressed together by tightening the flange screws of the bearing housing h and firmly clamped in the bearing point f of the bearing housing h. During this process, the marginal edges i2 of the side walls i1 of the capsule housing are pressed tightly against the shaft and the two capsule halves are pressed firmly onto one another with their flanges i3 interlocking by protrusion and recess.

The inner surfaces i6 of the two side walls i1 of the capsule housing lie on two conical surfaces, their mutual distance from the shaft d gets bigger and bigger. This ensures that the in the capsule housing liquid lubricant always flows into the lowest point of the rolling bearing a, b, c and constant lubrication of the rotating parts of the rolling bearing takes place.

The capsule-shaped damping element shown in FIG. 3 differs from the embodiment described above in that instead of a transverse division of the entire capsule housing, a removable arrangement of the one annular disk-shaped side wall i1 'is provided. This is pressed into the annular opening of the other part of the capsule housing after this part has previously been connected to the roller bearings a, b, c between the shaft d and the bearing point f of the bearing housing h, which in this case is not necessarily divided, but with a centered locking ring g or end cover can be designed, has been inserted with compression: Here too, the capsule housing hermetically seals the roller bearing from the outside.

For the assembly of capsule-shaped damping elements according to FIG. 3, a suitable special device is required, which enables the insertion of the capsule housing parts under tension between the bearing point f of the bearing housing h and the shaft d without great difficulty. The capsule housings can be supplied with the rolling bearings as built-in parts that belong to them.

Claims (3)

PATENT CLAIMS: 1. Rolling bearing with a two-part capsule housing made of oil-resistant, plastic plastic, which is attached to the bearing point under tension and acts as an elastically flexible cushion, characterized in that the capsule housing (i, i1, i2) in the longitudinal direction of the shaft (d), preferably in the shaft plane, is subdivided so that the two capsule halves are pressed against each other and into the bearing point during assembly by the bearing cover (h or g) with high pressure in the dividing joint, whereby opposing flanges (i3) of both capsule halves with projections (i4 ) and groove-shaped recesses (i5) can interlock. 2. Rolling bearing according to claim 1, characterized in that that the capsule housing (i, il, i2) designed as an annular disk, from the other Capsule housing part has removable side wall (il '), which when attaching the Bearing point closing ring cover (g) in the outer jacket part (i) of the capsule housing is firmly clamped, 3. Rolling bearing according to claim 1 .and optionally according to claim 2; characterized in that the inner surfaces (i.) of the two side walls Boys (i1) of the capsule housing (i, il, i2) in the shape of a truncated cone with a larger size towards the shaft (d) are carried out mutually spaced, so that on the side walls downward flowing lubricant is supplied to the lowest point of the rolling bearing (a, b, c) will. Publications considered: German patent publications No. 849 045; 215,797; British Patent No. 528,648; Swiss patent specification No. 250 984; French patents nos. 877 688, 514 178.