Oil flow through the bearings of a scroll compressor

What is claimed is: 1. A compressor comprising: a shell; a compression mechanism disposed within the shell, the compression mechanism including an orbiting scroll member and a non-orbiting scroll member, the orbiting scroll member including a baseplate and a tubular portion extending axially from the baseplate, the tubular portion defining a driveshaft cavity; a driveshaft drivingly engaged with the orbiting scroll member, the driveshaft having a first end disposed in the driveshaft cavity of the orbiting scroll member and a second end opposite of the first end; a drive bearing cavity disposed between an outer radial surface of the driveshaft and an inner radial surface of the tubular portion of the orbiting scroll member, the baseplate of the orbiting scroll member defining a first discharge passage in fluid communication with the drive bearing cavity; a drive bearing disposed in the drive bearing cavity and disposed about the driveshaft adjacent to the first end of the driveshaft; and an unloader bushing disposed about the driveshaft adjacent to the first end of the driveshaft and disposed in the drive bearing cavity between the outer radial surface of the driveshaft and an inner radial surface of the drive bearing, wherein the driveshaft defines a first channel extending axially through the first end of the driveshaft and a second channel extending radially outward from the first channel and through the outer radial surface of the driveshaft, the first and second channels being configured to deliver discharge fluid from the first discharge passage to an interface between the outer radial surface of the driveshaft and an inner radial surface of the unloader bushing. 2. The compressor of claim 1 wherein the driveshaft defines a third channel extending axially from the first channel and through the second end of the driveshaft. 3. The compressor of claim 1 further comprising: a main bearing housing fixed relative to the shell and including a second tubular portion, the second tubular portion defining a main bearing cavity in fluid communication with the drive bearing cavity; and a main bearing disposed in the main bearing cavity and disposed about the driveshaft between the first and second ends of the driveshaft, the main bearing radially supporting the driveshaft. 4. The compressor of claim 3 further comprising an end bearing disposed about the driveshaft adjacent to the second end, wherein the second tubular portion of the main bearing housing has an open end that allows discharge fluid to flow from the main bearing cavity to the end bearing. 5. The compressor of claim 1 wherein the shell defines a discharge chamber and the non-orbiting scroll member defines a second discharge passage in fluid communication with the discharge chamber. 6. The compressor of claim 1 wherein the orbiting scroll member has an axial end surface that faces the driveshaft, the first end of the driveshaft is spaced apart from the axial end surface of the orbiting scroll member to provide a clearance gap, and the clearance gap is free of any seal that prevents fluid communication between the first discharge passage in the orbiting scroll member and the drive bearing cavity. 7. A compressor comprising: a shell; a compression mechanism disposed within the shell, the compression mechanism including an orbiting scroll member and a non-orbiting scroll member, the orbiting scroll member including a baseplate and a tubular portion extending axially from the baseplate, the tubular portion defining a driveshaft cavity; a driveshaft drivingly engaged with the orbiting scroll member, the driveshaft having a first end disposed in the driveshaft cavity of the orbiting scroll member and a second end opposite of the first end; a drive bearing cavity disposed between an outer radial surface of the driveshaft and an inner radial surface of the tubular portion of the orbiting scroll member, the baseplate of the orbiting scroll member defining a first discharge passage in fluid communication with the drive bearing cavity; a drive bearing disposed in the drive bearing cavity and disposed about the driveshaft adjacent to the first end of the driveshaft; a main bearing housing fixed relative to the shell and including a second tubular portion, the second tubular portion defining a main bearing cavity in fluid communication with the drive bearing cavity; a main bearing disposed in the main bearing cavity and disposed about the driveshaft between the first and second ends of the driveshaft, the main bearing radially supporting the driveshaft; and a suction tube extending through the shell, the non-orbiting scroll member defining a suction inlet in fluid communication with the suction tube, and the baseplate of the orbiting scroll member defining an intermediate chamber orifice disposed radially between the suction inlet and the first discharge passage and extending axially through the baseplate. 8. The compressor of claim 7 further comprising an unloader bushing disposed about the driveshaft adjacent to the first end of the driveshaft and disposed in the drive bearing cavity between the outer radial surface of the driveshaft and an inner radial surface of the drive bearing. 9. The compressor of claim 7 wherein the main bearing housing and the orbiting scroll member cooperate to define an intermediate chamber that is in fluid communication with the intermediate chamber orifice. 10. The compressor of claim 9 further comprising an Oldham coupling disposed in the intermediate chamber and keyed to the orbiting scroll member and the main bearing housing. 11. The compressor of claim 9 wherein the main bearing housing has a thrust bearing surface abutting the baseplate of the orbiting scroll member, the intermediate chamber placing the intermediate chamber orifice in fluid communication with at least a portion of an interface between the thrust bearing surface and the baseplate. 12. A compressor comprising: a shell; a compression mechanism disposed within the shell, the compression mechanism including an orbiting scroll member and a non-orbiting scroll member, the orbiting scroll member including a baseplate and a tubular portion extending axially from the baseplate, the tubular portion defining a driveshaft cavity; a driveshaft drivingly engaged with the orbiting scroll member, the driveshaft having a first end disposed in the driveshaft cavity of the orbiting scroll member and a second end opposite of the first end; a drive bearing cavity disposed between an outer radial surface of the driveshaft and an inner radial surface of the tubular portion of the orbiting scroll member, the baseplate of the orbiting scroll member defining a first discharge passage in fluid communication with the drive bearing cavity; a drive bearing disposed in the drive bearing cavity and disposed about the driveshaft adjacent to the first end of the driveshaft; and a discharge valve that regulates the flow of discharge fluid from the first discharge passage to the drive bearing cavity. 13. The compressor of claim 12 wherein the discharge valve is disposed in the driveshaft cavity and axially between the orbiting scroll member and the first end of the driveshaft.