초록 ▼

Embodiments of the invention are directed to bearing assemblies including one or more superhard bearing elements having one or more grooves formed in a bearing surface thereof, apparatuses, and motor assemblies using the same. In an embodiment, a bearing assembly includes a plurality of superhard be

Embodiments of the invention are directed to bearing assemblies including one or more superhard bearing elements having one or more grooves formed in a bearing surface thereof, apparatuses, and motor assemblies using the same. In an embodiment, a bearing assembly includes a plurality of superhard bearing elements distributed circumferentially about an axis. Each of the superhard bearing elements includes a bearing surface. At least one of the plurality of superhard bearing elements includes one or more grooves formed in the bearing surface thereof. The bearing assembly also includes a support ring that carries the superhard bearing elements.

대표청구항 ▼

1. A bearing assembly, comprising: a plurality of superhard bearing elements distributed circumferentially about an axis, each of the plurality of superhard bearing elements including a bearing surface, at least one of the plurality of superhard bearing elements including one or more arcuate grooves

1. A bearing assembly, comprising: a plurality of superhard bearing elements distributed circumferentially about an axis, each of the plurality of superhard bearing elements including a bearing surface, at least one of the plurality of superhard bearing elements including one or more arcuate grooves having an arcuate bath formed in the bearing surface thereof, the one or more arcuate grooves defining a path length, a bottom portion, and a depth extending between the bearing surface and the bottom portion, at least one of the arcuate grooves having a non-uniform depth; anda support ring that carries the plurality of superhard bearing elements. 2. The bearing assembly of claim 1 wherein the one or more arcuate grooves are positioned and configured to pump lubricating fluid onto the bearing surfaces of one or more of the plurality of superhard bearing elements. 3. The bearing assembly of claim 1 wherein the one or more arcuate grooves are configured to increase a surface area of the bearing surfaces in contact with lubricating fluid. 4. The bearing assembly of claim 1 wherein the one or more arcuate grooves follow a generally curved path, a generally semi-cylindrical path, or combination thereof. 5. The bearing assembly of claim 1 wherein at least a portion of the one or more arcuate grooves includes a cross-sectional area at least partially defined between opposing sidewalls of the one or more arcuate grooves, the cross-sectional area having a generally v-shaped geometry, a generally parabolic geometry, or a generally rectangular geometry. 6. The bearing assembly of claim 1 wherein the bath length of the one or more arcuate grooves is about forty (40) percent to about one hundred forty (140) percent of a length of the plurality of superhard bearing elements. 7. The bearing assembly of claim 1 wherein the bath length of the one or more arcuate grooves is about four hundred (400) percent to eight hundred (800) percent of the depth of the one or more arcuate grooves. 8. The bearing assembly of claim 1 wherein at least one of the plurality of superhard bearing elements further comprises a substrate and a polycrystalline diamond table bonded to the substrate, the polycrystalline diamond table having a thickness. 9. The bearing assembly of claim 8 wherein a depth of the one or more arcuate grooves is about ten (10) percent to one hundred twenty (120) percent of the thickness of the polycrystalline diamond table. 10. The bearing assembly of claim 9 wherein a depth of the one or more arcuate grooves is about forty (40) percent to one hundred (100) of the thickness of the polycrystalline diamond table. 11. The bearing assembly of claim 1 wherein at least one of the plurality of superhard bearing elements comprises a non-cylindrical superhard bearing element. 12. The bearing assembly of claim 1 wherein the axis is a thrust axis, and wherein the support ring and the plurality of superhard bearing elements define a thrust-bearing assembly; or wherein the axis is a rotation axis, and wherein the support ring and the plurality of superhard bearing elements define a radial bearing assembly. 13. The bearing assembly of claim 1 wherein the plurality of the superhard bearing elements are brazed, interference-fitted, or fastened to the support ring. 14. A bearing assembly, comprising: a plurality of superhard bearing elements distributed circumferentially about an axis, each of the plurality of superhard bearing elements including: a first end surface and a second end surface positioned generally opposite the first end surface;a first side surface extending between the first end surface and the second end surface;a second side surface positioned generally opposite the first side surface;a bearing surface extending between the first end surface, the second end surface, the first side surface, and the second side surface;at least one of the plurality of superhard bearing elements including one or more grooves formed in the bearing surface extending at and from the first end surface to the second end surface; anda support ring that carries the plurality of superhard bearing elements. 15. The bearing assembly of claim 14 wherein the one or more grooves comprise one or more arcuate grooves having an arcuate path, the one or more arcuate grooves defining a path length, a bottom portion, and a depth extending between the bearing surface and the bottom portion. 16. The bearing assembly of claim 15 wherein the path length is more than one hundred (100) percent of a length of the plurality of superhard bearing elements. 17. The bearing assembly of claim 15 wherein at least one of the plurality of superhard bearing elements further comprises a substrate and a superhard table bonded to the substrate, the superhard table having a thickness. 18. The bearing assembly of claim 17 wherein the superhard table includes a polycrystalline diamond table. 19. The bearing assembly of claim 18 wherein the depth of the one or more arcuate grooves is more than one hundred (100) percent the thickness of the polycrystalline diamond table. 20. A bearing assembly, comprising: a plurality of superhard bearing elements distributed circumferentially about an axis, each of the plurality of superhard bearing elements including a bearing surface, at least one of the plurality of superhard bearing elements having a substrate and a superhard table bonded to the substrate, the superhard table having a thickness, the at least one of the plurality of superhard bearing elements including one or more arcuate grooves having an arcuate path formed in the bearing surface, the arcuate path defining a path length, the one or more arcuate grooves having a depth of more than one hundred (100) percent the thickness of the superhard table; anda support ring that carries the plurality of superhard bearing elements. 21. The bearing assembly of claim 20 wherein the superhard table on the at least one of the plurality of superhard bearing elements comprises a polycrystalline diamond table. 22. The bearing assembly of claim 21 wherein at least one of the plurality of superhard bearing elements includes: a first end surface and a second end surface positioned generally opposite the first end surface;a first side surface extending between the first end surface and the second end surface;a second side surface positioned generally opposite the first side surface;the bearing surface extending between the first end surface, the second end surface, the first side surface, and the second side surface;the one or more arcuate grooves extending between the first end surface and the second end surface. 23. The bearing assembly of claim 22 wherein the depth is non-uniform. 24. The bearing assembly of claim 23 wherein the non-uniform depth is defined by a greater depth at the first end surface and a shallower depth at the second end surface. 25. The bearing assembly of claim 24 wherein the path length of the one or more arcuate grooves is about forty (40) percent to about one hundred forty (140) percent of a length of the plurality of superhard bearing elements.