초록 ▼

A bearing mechanism for mounting a connecting rod to a crankshaft is disclosed. The bearing mechanism may include a first bearing half-shell forming a first semicylindrical member and a second bearing half-shell forming a second semicylindrical member. The second bearing half-shell may be assembled

A bearing mechanism for mounting a connecting rod to a crankshaft is disclosed. The bearing mechanism may include a first bearing half-shell forming a first semicylindrical member and a second bearing half-shell forming a second semicylindrical member. The second bearing half-shell may be assembled to the first bearing half-shell to form a cylindrical member. The cylindrical member may include an outer surface, an inner surface, and at least one end.

대표청구항 ▼

What is claimed is: 1. A bearing system, comprising: a connecting rod including an end portion, the end portion including an outer circumference; a crankshaft including at least one side cheek and a crankpin disposed within the end portion; a bearing mechanism disposed between the end portion and t

What is claimed is: 1. A bearing system, comprising: a connecting rod including an end portion, the end portion including an outer circumference; a crankshaft including at least one side cheek and a crankpin disposed within the end portion; a bearing mechanism disposed between the end portion and the crankpin, the bearing mechanism including a first bearing half-shell forming a first semicylindrical member and a second bearing half-shell forming a second semicylindrical member, the second bearing half-shell fastened to the first bearing half-shell to form a cylindrical member, the cylindrical member including: an outer surface; an inner surface; and at least one end; a first oil film associated with the end portion and the outer surface of the cylindrical member; a second oil film associated with the inner surface of the cylindrical member and the crankpin; and a bearing pressed onto the end portion, the bearing having a third surface. 2. The bearing system of claim 1, further including an overlay material assembled on the outer surface of the cylindrical member and the inner surface of the cylindrical member and at least one of: the third surface of the bearing; and the end portion; wherein the overlay material is configured to be softer than the cylindrical member and the connecting rod. 3. The bearing system of claim 2, wherein the end portion of the connecting rod includes an annular protrusion extending radially from the outer circumference of the end portion. 4. The bearing system of claim 3, wherein the at least one end of the cylindrical member is in communication with one of: the at least one side cheek; and the annular protrusion. 5. The bearing system of claim 4, further including at least one channel associated with the crankshaft, the at least one channel including a first opening positioned lateral to the at least one end of the cylindrical member, and a second opening positioned on the crankshaft. 6. The bearing system of claim 4, wherein the at least one end of the cylindrical member includes a first cut-out groove disposed from the outer surface and to the inner surface of the cylindrical member. 7. The bearing system of claim 6, wherein the at least one side cheek includes a second cut-out groove disposed on the at least one side cheek and facing the at least one end of the cylindrical member. 8. The bearing system of claim 7, wherein the annular protrusion includes a third cut-out groove disposed on the annular protrusion and facing the at least one end of the cylindrical member. 9. The bearing system of claim 2, further including at least one aperture through the outer surface and the inner surface of the cylindrical member, the at least one aperture including a first width associated with the outer surface and the first oil film and a second width associated with the inner surface and the second oil film, and wherein the first width and the second width are unequal in size. 10. The bearing system of claim 2, wherein the outer surface of the cylindrical member is substantially tapered at the at least one end. 11. The bearing system of claim 2, further including at least a first hydrodynamic ramp coupled to the outer surface of the cylindrical member and at least a second hydrodynamic ramp coupled to the inner surface of the cylindrical member. 12. An engine assembly, comprising: a cylinder block including a cylinder bore; a piston movably assembled within the cylinder bore; and a bearing system associated with the cylinder block, the bearing system including: a crankshaft operatively assembled to a lower portion of the cylinder block, the crankshaft including: a crankpin; and at least one side cheek; a connecting rod assembly including a first end portion pivotally connected to the piston and a second end portion pivotally connected to the crankpin of the crankshaft, the second end portion including an outer circumference; and a bearing mechanism disposed between the second end portion and the crankpin, the bearing mechanism including: a first bearing half-shell forming a first semicylindrical member; and a second bearing half-shell forming a second semicylindrical member, the second bearing half-shell assembled to the first bearing half-shell to form a cylindrical member, the cylindrical member including: an outer surface; an inner surface; and at least one end a first cut-out groove coupled to the at least one end of the cylindrical member, the first cut-out groove disposed from the outer surface and to the inner surface of the cylindrical member, a second cut-out groove coupled to the at least one side cheek, the second cut-out groove disposed on the at least one side cheek and facing the at least one end of the cylindrical member, and at least one annular protrusion extending radially from the outer circumference of the second end portion, the at least one annular protrusion including a third cut-out groove disposed on the at least one annular protrusion and facing the at least one end of the cylindrical member. 13. The engine assembly of claim 12, wherein the at least one end of the cylindrical member is in communication with one of: the at least one side cheek; and the at least one annular protrusion. 14. The engine assembly of claim 13, further including at least one channel associated with the crankshaft, wherein a first opening of the channel is positioned lateral to the at least one end of the cylindrical member, and a second opening of the channel is positioned on the crankshaft. 15. A bearing mechanism configured to mount a connecting rod to a crankshaft, the bearing mechanism comprising: a first bearing half shell forming a first semicylindrical member; and a second bearing half-shell forming a second semicylindrical member, the second bearing half-shell fastened to the first bearing half-shell to form a cylindrical member, the cylindrical member including: an outer surface; an inner surface; at least one end; and at least one aperture through the outer surface and the inner surface of the cylindrical member, the at least one aperture including a first width associated with the outer surface and a second width associated with the inner surface, and wherein the first width and the second width are unequal in size. 16. A bearing mechanism configured to mount a connecting rod to a crankshaft, the bearing mechanism comprising: a first bearing half shell forming a first semicylindrical member; and a second bearing half-shell forming a second semicylindrical member, the second bearing half-shell fastened to the first bearing half-shell to form a cylindrical member, the cylindrical member including: an outer surface; an inner surface; at least one end; and at least one hydrodynamic ramp coupled to at least one of the outer surface of the cylindrical member and the inner surface of the cylindrical member. 17. The bearing mechanism of claim 16, further including an overlay material assembled on the outer surface and the inner surface of the cylindrical member, the overlay material configured to be softer than the cylindrical member and the connecting rod. 18. The bearing mechanism of claim 17, wherein the at least one end of the cylindrical member includes a first cut-out groove disposed from the outer surface to the inner surface of the cylindrical member. 19. The bearing mechanism of claim 17, wherein the outer surface of the cylindrical member is substantially tapered at the at least one end. 20. The bearing mechanism of claim 17, wherein a first hydrodynamic ramp is coupled to the outer surface of the cylindrical member and a second hydrodynamic ramp is coupled to the inner surface of the cylindrical member.