Scroll compressor assembly having oil distribution and support feature

What is claimed is: 1. A horizontal scroll compressor assembly for compressing a working fluid and lubricated with an oil, comprising: a housing having an axis, an interior surface, and suction and discharge ports, and in which are located a suction plenum for receiving working fluid substantially at a suction pressure through said suction port, a discharge plenum from which working fluid substantially at a discharge pressure is dischargeable through the discharge port, and a suction sump for collected oil, the suction sump located in the suction plenum; and a compression mechanism disposed in the housing for compressing an admixture of working fluid and oil, the compression mechanism comprising an orbital scroll member and a nonorbital scroll member, the scroll members interengaged for defining a compression chamber therebetween into which the admixture is receivable from the suction plenum for compression, the compression mechanism having a discharge aperture for passing compressed admixture from the compression chamber to the discharge plenum, the orbital scroll member having a thrust surface, the thrust surface and the housing interior surface axially superposed, the orbital scroll member having movement about the axis relative to the housing and the nonorbital scroll member, the thrust surface having a groove forming an oil distribution channel extending at least partially about the axis, an anti-rotation mechanism through which the orbital scroll member and the housing are coupled, the orbital scroll member provided with a plurality of spaces circumferentially distributed on the orbital scroll member and partially defining the anti-rotation mechanism, a lowermost one of the spaces disposed in the suction sump and directly receivable of oil from the suction sump, the oil distribution channel fluidly connecting the lowermost one of the spaces with at least one further space of the plurality of spaces, oil received from the suction sump into the lowermost one of the spaces and thereby into the distribution channel being urged along the distribution channel and delivered to locations between the superposed surfaces during movement of the orbital scroll member. 2. The horizontal scroll compressor assembly of claim 1 , wherein the lowermost one of the spaces has at least one cylindrical surface, and the anti-rotation mechanism comprises a cylindrical member disposed in the lowermost one of the spaces, the cylindrical surface of the space moved about the cylindrical member, movement of oil in the lowermost one of the spaces induced by the anti-rotation mechanism, oil from the suction sump receivable into the lowermost one of the spaces forced from the lowermost one of the spaces into the oil distribution channel during movement of the orbital scroll member. 3. The horizontal scroll compressor assembly of claim 2 , wherein the lowermost one of the spaces is toroidal and has a pair of concentric cylindrical surfaces between which the cylindrical member is located. 4. The horizontal scroll compressor assembly of claim 3 , wherein the oil distribution channel includes at least two groove segments fluidly interconnected through the toroidal space, oil forced into at least one of the groove segments pumped along the oil distribution channel during the movement of the orbital scroll member. 5. The horizontal scroll compressor assembly of claim 4 , wherein the oil distribution channel includes two or more groove segments arranged about the axis, an end of one the groove segment fluidly interconnected to an end of another the groove segment through the toroidal space. 6. The horizontal scroll compressor assembly of claim 1 , wherein the oil distribution channel has a shallower depth than the plurality of spaces and includes an elongate groove segment. 7. The horizontal scroll compressor assembly of claim 6 , wherein the oil distribution channel includes a plurality of the elongate groove segments, an end of one the groove segment fluidly interconnected with an end of another the groove segment within the orbital scroll member. 8. The horizontal scroll compressor assembly of claim 7 , wherein the space is at least partially located in the suction sump and is receivable of oil from the suction sump. 9. The horizontal scroll compressor assembly of claim 8 , wherein the anti-rotation mechanism comprises a pair of concentric cylindrical surfaces between which at least a portion of the space is located, and a cylindrical member having a fixed location about the axis relative to the housing, the cylindrical member diametrically extending between the concentric cylindrical surfaces, movement of oil in the space induced by relative movement between the concentric cylindrical surfaces and the cylindrical member, oil received from the suction sump into the space forced from the space into the oil distribution channel during the movement of the orbital scroll member. 10. The horizontal scroll compressor assembly of claim 9 , wherein the cylindrical member is a needle roller bearing assembly on which at least one of the concentric cylindrical surfaces rides during the movement of the orbital scroll member.