DE2635416C3 - Spiral groove bearings - Google Patents

Description

The invention relates to a spiral groove bearing for absorbing radial and axial forces with a Spherical cap and a sphere which is provided with spiral grooves between the pole and the equator, the The pitch angle of the spiral grooves in the area of the pole is different from the pitch angle in the area of the Equator is

A spiral groove bearing of this type is, for example, from Fig. 4 of DE-OS 15 25 190 known bearings of this type have a large axial load capacity in relation to radial load capacity As at very high speeds due to unbalances that can hardly be avoided from a manufacturing point of view of the component to be supported radial forces occur, there is a need, the spiral groove bearings in to improve this direction.

The invention is based on the object, in known spiral groove bearings of the above. Genus the radial load capacity in relation to the axial load capacity due to changes in the groove pattern enlarge.

This object is achieved according to the invention in that the dam-groove ratio is smaller in the vicinity of the pole than in the area of the equator and that if the embankment is wide enough in the area of the equator, the grooves are formed branch out.

The respective precise dimensioning of the said dam-groove ratio enables the subject matter of the invention an independent setting of ar.ial load capacity to radial load capacity by reduction the flow velocity in the vicinity of the pole increases the static pressure and thus the axial load-bearing capacity Flow losses and eddy formation near the pole are reduced. Branch in the area of the equator the grooves, as a result of which more grooves per unit area are available and thus a larger radial one Carrying capacity is achieved.

From Fig. 5, 6 of DE-OS 25 04 204 a spherical self-pressure generating axial slide bearing is known, in which a throttle area separates grooved sub-areas. However, the throttle area carries due to its meridional course does not contribute to the build-up of the lubricating pressure and is therefore not associated with a to compare branched spiral groove, as it is the subject of the invention.

An exemplary embodiment of the invention is described below with reference to figures. It shows

F i g. 1 shows the basic representation of a spiral groove spherical bearing and
F i g. 2 shows a groove pattern, according to the invention

branch out the grooves in the area of the equator.

A spiral groove bearing for absorbing radial and axial forces, as is known in the art, exists 1 from a spherical cap 2 and a ball 4. Between the pole 6 and the equator 8 there are spiral grooves 10

present, which alternate with dams 12. A smooth pole face 14 can be located in the vicinity of the pole which is delimited by a circumferential annular groove 16.

FIG. 2 shows two embodiments for the branching of a spiral groove 10 from FIG. 1 in the area of the equator 8. One or more secondary grooves 28, 30 branch off from the trunk groove 26. Above Connecting pieces 32, which run approximately parallel to the equator, are the secondary grooves 28, 30 with the Trunk groove 26 in connection, so that any abrasion from the secondary grooves into the trunk groove and from there is conveyed into the circumferential annular groove 16 (Fig. 1).

1 sheet of drawings

Claims (1)

Claim: Spiral groove bearing for absorbing radial and axial forces with a spherical cap and a Sphere, which is provided with spiral grooves between the pole and the equator, with the pitch angle the spiral grooves in the area of the pole is different from the angle of inclination in the area of the equator, characterized in that the dam-groove ratio near the pole is smaller than in Area of the equator and that with sufficient dam width (12) in the area of the equator (8) the Grooves (10) branch out.