Claims
- 1. A progressive bearingizing tool for densifying a circular worked surface of a sintered metal workpiece, comprising:
- a set of rollers for rolling along said worked surface, said rollers being tapered in length so as to each be frusto-conical in shape with each having a small diameter end and an opposite large diameter end, each roller of said set being oriented the same as each other roller of said set so as to roll around said worked surface as said set is rotated about an axis of said worked surface;
- a mandrel on an opposite radial side of said set of rollers from said worked surface, said mandrel having a surface which is non-round in radial cross-sectional shape and tapered in axial cross-sectional shape so as to contact said rollers on said opposite radial side from the small diameter ends of said rollers and for a distance along the length of said rollers toward said large diameter ends when said mandrel is rotated, said mandrel being tapered in axial cross-sectional shape so as to urge said rollers into more forceful contact with said worked surface as said mandrel is pressed into a longer length of contact with said rollers and said non-round shape of said mandrel surface being such as to impact said rollers against said worked surface when said mandrel is rotated about said axis of said worked surface.
- 2. A progressive bearingizing tool as claimed in claim 1, wherein said worked surface is an outer circular surface.
- 3. A progressive bearingizing tool as claimed in claim 2, wherein said worked surface is cylindrical.
- 4. A progressive bearingizing tool as claimed in claim 1, wherein said worked surface is an inner circular surface.
- 5. A progressive bearingizing tool as claimed in claim 4, wherein said worked surface is cylindrical.
- 6. A progressive bearingizing tool as claimed in claim 1, wherein said non-round shape of said mandrel surface is a polygon.
- 7. A progressive bearingizing tool as claimed in claim 1, wherein said mandrel exerts a cyclically varying force on each of said rollers so as to vary the force exerted by each said roller on said worked surface.
- 8. A method of densifying a circular worked surface of a sintered powder metal workpiece comprising the steps of:
- providing a set of rollers for rolling along said worked surface, said rollers being tapered in length so as to each be frusto-conical in shape with each having a small diameter end and an opposite large diameter end, each roller of said set being oriented the same as each other roller of said set so as to roll around said worked surface as said set is rotated about an axis of said worked surface;
- providing a mandrel on an opposite radial side of said set of rollers from said worked surface, said mandrel having a surface which is non-round in radial cross-sectional shape and tapered in axial cross-sectional shape so as to contact said rollers on said opposite radial side from the small diameter ends of said rollers and for a distance along the length of said rollers toward said large diameter ends when said mandrel is rotated, said mandrel being tapered in axial cross-sectional shape so as to urge said rollers into more forceful contact with said worked surface as said mandrel is pressed into a longer length of contact with said rollers and said non-round shape of said mandrel surface being such as to impact said rollers against said worked surface when said mandrel is rotated about said axis of said worked surface;
- rotating said mandrel so as to engage said rollers in rotation and orbiting around the axis of said worked surface.
- 9. A method as claimed in claim 8, wherein said mandrel exerts a cyclically varying force on each of said rollers so as to vary the force exerted by each said roller on said worked surface.
- 10. A sintered powder metal workpiece having a worked surface densified by the method of claim 8.
Parent Case Info
This claims the benefit of U.S. Provisional Patent Application Ser. No. 60/074,391 filed Feb. 11, 1998.
US Referenced Citations (8)