Profile for a cylindrical component

Abstract

A cylindrical component has a groove bottom (4) that extends approximately parallel to the course of the unworked surface of the component, and has a side wall (6, 7) inclined at an angle () of less than 90 to the groove bottom (4). To increase the adhesion between a coating to be applied to the surface of the component an upper region of the side wall (6, 7) is adjoined by an oblique surface (8, 9) at an angle () of greater than 90 to the side wall.

Claims

1. A cylindrical component having an inner cylindrical surface formed around a central axis and a helical groove formed in the cylindrical inner surface, the groove having a profile that consists of: a groove bottom that extends substantially parallel to the surface of the component into which the groove is formed, the groove bottom having opposite first and second lateral ends, first and second side surfaces aligned at an angle () of less than 90 to the groove bottom, first and second oblique surfaces extending out from the respective first and second side surfaces at angles () to the side surfaces greater than 90 so that the oblique surfaces converge continuously toward one another at positions farther from the central axis, and first and second steps between the respective first and second lateral ends of the groove bottom and the respective first and second side surfaces, the steps being closer than the groove bottom to the oblique surfaces and a distance between the first and second steps being less than a distance between the locations on the side surfaces closest to the groove bottom, wherein the steps relieve stress on a tool that forms the groove and wherein the converging oblique surfaces cause particles that strike the oblique surfaces to be guided to the groove bottom, and wherein the helical groove comprises plural groove sections that are next to one another at a constant spacing in a direction parallel to the central axis, the oblique surfaces of the groove sections that are next to one another in the direction parallel to the central axis intersecting and meeting one another at a convex angle of intersection () that is greater than 90 and that is free of concavities facing toward the central axis so that particles striking the oblique surfaces are guided to the groove bottom.

2. The component of claim 1, wherein dimensions of the oblique surfaces in directions normal to the intersection of the oblique surfaces are equal at all positions on the respective groove profiles.

3. A cylindrical component having an inner cylindrical surface formed around a central axis and a helical groove formed in the cylindrical inner surface, the groove having a profile that consists of: a groove bottom that extends substantially parallel to the surface of the component into which the groove is formed, the groove bottom having opposite first and second lateral ends, first and second side surfaces aligned at an angle () of less than 90 to the groove bottom, first and second oblique surfaces extending out from the respective first and second side surfaces at angles () to the side surfaces greater than 90 so that the oblique surfaces converge continuously toward one another at positions farther from the central axis, the helical groove having plural groove sections that are next to one another at a constant spacing in a direction parallel to the central axis, the oblique surfaces of the groove sections that are next to one another in the direction parallel to the central axis intersecting and meeting one another at a convex angle of intersection () that is greater than 90 and that is free of concavities facing toward the central axis, wherein the converging oblique surfaces cause particles that strike the oblique surfaces to be guided to the groove bottom.

4. The component of claim 3, wherein dimensions of the obliques surfaces in directions normal to the intersection of the oblique surfaces are equal at all positions on the respective oblique surfaces.

Description

BRIEF DESCRIPTION OF THE DRAWING

(1) FIG. 1 is a section view of a surface provided with a profile according to the invention in a greatly enlarged illustration.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(2) The surface illustrated in FIG. 1 can be for example a cylindrical inner surface of a bore in a cylinder crankcase Z. In the unworked state, i.e. before the introduction of the groove, the dashed line indicated with the reference numeral 1 represents the inner surface of the unworked bore. A groove having the profile 2 according to the invention is incorporated incrementally by a suitable tool into the inner surface as a helix, the central axis of which is designated with the reference numeral 3. The spiral-shape enables plural profiles 2, 2, 2 to be produced next to one another at a constant spacing A.

(3) Each profile 2 is symmetrical and has a groove bottom 4 that extends approximately parallel to the inner surface 1. The axis of symmetry is indicated by the reference numeral 5. Side walls 6 and 7 extend from the groove bottom 4 in an inclined manner toward the axis of symmetry 5. Each side wall 6 or 7 extends at an acute angle to the groove bottom 4. Upper regions of the side walls 6 or 7 are adjoined by inclined surfaces 8 or 9 at angles that are greater than 90. Thus, a roof-like elevation having an angle which is greater than 90 is produced between the profiles 2 and 2, and 2 and 2, respectively.

(4) As a result, the narrowest point of the profile 2 has the width B widened in a funnel-shaped manner in the direction of the interior of the bore. Thus, particles that strike in a perpendicular manner, for example during the thermal coating operation, can be deflected as per arrow U to the groove bottom of the profile.

(5) In a further embodiment, a step 10 or 11 for relieving stress on the tool can be provided, as illustrated for the sake of clarity only at the profile 2, between the groove bottom 4 and the side wall 6 or 7, respectively.

(6) The profile described represents only one embodiment of the claimed solution. Thus, an asymmetrical profile also is conceivable.