Compressor having sound isolation feature

What is claimed is: 1. A scroll compressor comprising: a bearing housing including at least one radially extending arm having an axially extending fastener bore; an orbiting scroll member including an orbiting end plate and an orbiting spiral wrap extending from the orbiting end plate, the orbiting scroll operable to orbit about a first axis; a non-orbiting scroll member including a non-orbiting end plate, a non-orbiting spiral wrap extending from the non-orbiting end plate and meshingly engaged with the orbiting spiral wrap, and a radially extending flanged portion, the radially extending flanged portion having a first surface and a second surface, and including at least one aperture extending axially between the first surface and the second surface, the at least one aperture substantially aligned with the axially extending fastener bore; and at least one fastener disposed within the at least one aperture and the axially extending fastener bore, the at least one fastener having a first passage extending in a direction substantially parallel to the first axis, and a second passage extending in a direction substantially perpendicular to the first axis, wherein the second passage is operable to fluidly communicate with the first passage. 2. The scroll compressor of claim 1 , wherein the at least one fastener and the at least one aperture define an interface between the non-orbiting scroll member and the fastener, and wherein the second passage is operable to fluidly communicate with the interface. 3. The scroll compressor of claim 1 , further comprising at least one sleeve guide disposed within the at least one aperture, wherein the fastener is further disposed within the at least one sleeve guide, and wherein the at least one sleeve guide includes a third passage operable to fluidly communicate with the second passage. 4. The scroll compressor of claim 3 , wherein the at least one sleeve guide and the at least one aperture define an interface between the non-orbiting scroll member and the at least one sleeve guide, and wherein the third passage is operable to fluidly communicate with the interface. 5. The scroll compressor of claim 3 , wherein the third passage extends in a direction substantially parallel to the second passage. 6. The scroll compressor of claim 3 , wherein the fastener extends from a first axial end to a second axial end, and the first passage is a bore disposed at the first axial end. 7. The scroll compressor of claim 3 , wherein the fastener extends from a first axial end to a second axial end, and the first passage is a bore disposed at the second axial end and operable to fluidly communicate with the axially extending fastener bore. 8. The scroll compressor of claim 7 , wherein the bearing housing includes a fourth passage and a counterweight cavity, the fourth passage having a first end operable to fluidly communicate with the axially extending fastener bore and a second end operable to fluidly communicate with the counterweight cavity. 9. A scroll compressor comprising: a bearing housing including a first passage, a second passage, a counterweight cavity, and at least one radially extending arm having an axially extending fastener bore; an orbiting scroll member including an orbiting end plate and an orbiting spiral wrap extending from the orbiting end plate; a non-orbiting scroll member including a non-orbiting end plate, a non-orbiting spiral wrap extending from the non-orbiting end plate and meshingly engaged with the orbiting spiral wrap, and a radially extending flanged portion, the radially extending flanged portion having a first surface and a second surface, and including at least one aperture extending axially between the first surface and the second surface, the at least one aperture substantially aligned with the axially extending fastener bore; at least one sleeve guide disposed within the at least one aperture, the at least one sleeve guide including a third passage; and at least one fastener having a first portion disposed within the at least one sleeve guide and a second portion disposed within the axially extending fastener bore, wherein the first passage is operable to fluidly communicate with the counterweight cavity and the second passage, the second passage is operable to fluidly communicate with the third passage, and the third passage is operable to fluidly communicate with an interface between the at least one sleeve guide and the at least one aperture. 10. The scroll compressor of claim 9 , wherein the at least one sleeve guide further includes a first annular groove and a second annular groove, and the third passage extends between, and is operable to fluidly communicate with, the first annular groove and the second annular groove. 11. The scroll compressor of claim 10 , wherein the first annular groove and the second annular groove are each disposed in an axially extending wall of the at least one sleeve guide. 12. The scroll compressor of claim 10 , wherein the first annular groove is disposed in an axially extending wall of the at least one sleeve guide, and the second annular groove is disposed in a radially extending wall of the at least one sleeve guide. 13. The scroll compressor of claim 10 , further comprising a first O-ring and a second O-ring, the first O-ring sealing an interface between the bearing housing and the at least one sleeve guide and the second O-ring sealing an interface between the at least one sleeve guide and the at least one fastener. 14. The scroll compressor of claim 9 , further comprising a lubricant drain hole disposed in an upper portion of the counterweight cavity, higher than the first passageway, to enable excess lubricant in the counterweight cavity to drain out of the counterweight cavity and flow across a motor assembly and to a lubricant sump. 15. A scroll compressor comprising: a bearing housing including at least one radially extending arm having an axially extending bore; an orbiting scroll member including an orbiting end plate and an orbiting spiral wrap extending from the orbiting end plate; a non-orbiting scroll member including a non-orbiting end plate, a non-orbiting spiral wrap extending from the non-orbiting end plate and meshingly engaged with the orbiting spiral wrap, and a radially extending flanged portion comprising at least one axially extending aperture substantially aligned with the axially extending bore; at least one fastener disposed within the at least one axially extending aperture and the axially extending bore; a sound isolation member disposed between at least a portion of the fastener and at least a portion of the non-orbiting scroll member, wherein the sound isolation member comprises a fluid-filled chamber; and a sleeve guide disposed within the axially extending aperture between the fastener and the radially extending flanged portion, the fluid-filled chamber being disposed between at least a portion of the fastener and at least a portion of the sleeve guide. 16. The scroll compressor of claim 15 , wherein the fluid-filled chamber includes at least one of an oil or a gas. 17. The scroll compressor of claim 15 , wherein the fluid-filled chamber is an annular chamber. 18. The scroll compressor of claim 15 , wherein the fluid-filled chamber contacts both the sleeve guide and the fastener.