Refrigerant scroll compressor for motor vehicle air conditioning system including at least one sealing means for bottom surface sealing of orbiting scroll

What is claimed is: 1. A scroll compressor for a motor vehicle air conditioning system comprising: a stationary housing including an outer surface; a fixed scroll overlying and having engaging contact with the stationary housing; an orbiting scroll engaging the fixed scroll and including an outer surface defining an annularly extending groove formed therein, wherein the fixed scroll and the orbiting scroll cooperate to compress a refrigerant gas; an intermediate pressure chamber disposed adjacent the orbiting scroll; at least one sealing means to seal the orbiting scroll including an annularly extending gasket and an annularly extending O-ring overlying the annularly extending gasket and having engaging contact therewith, the at least one sealing means extending from the outer surface of the stationary housing to the orbiting scroll wherein the annularly extending gasket is positioned adjacent the stationary housing and has engaging contact therewith and an entirety of the annularly extending O-ring is disposed in the annularly extending groove of the orbiting scroll; and at least one intermediate pressure duct formed in the orbiting scroll, the intermediate pressure duct being in fluid communication with the intermediate pressure chamber. 2. The scroll compressor of claim 1 , wherein the annularly extending O-ring contacts at least one inner face of the orbiting scroll located within and adjacent the groove. 3. The scroll compressor of claim 1 , wherein a cross-section of the annularly extending gasket taken through a plane parallel to a longitudinal axis of the scroll compressor is rectangular in shape. 4. The scroll compressor of claim 1 , wherein a cross-section of the annularly extending O-ring taken through a plane parallel to a longitudinal axis of the scroll compressor is circular in shape. 5. The scroll compressor of claim 1 , wherein the sealing means encircles the at least one intermediate pressure duct. 6. A scroll compressor for a motor vehicle air conditioning system comprising: a stationary housing including an outer surface; a fixed scroll overlying and having engaging contact with the stationary housing; an orbiting scroll orbiting with respect to the fixed scroll, the fixed scroll and the orbiting scroll cooperating to compress a gas and the orbiting scroll including an outer surface facing the outer surface of the stationary housing, the outer surface of the orbiting scroll defining an annularly extending groove formed therein; an intermediate pressure chamber defined by the stationary housing adjacent the orbiting scroll; and at least one sealing means extending from the outer surface of the stationary housing to the outer surface of the orbiting scroll, at least a portion of the at least one sealing means disposed in the annularly extending groove, the at least one sealing means including an annularly extending gasket and an annularly extending O-ring overlying the annularly extending gasket and having engaging contact therewith wherein the annularly extending gasket is positioned adjacent the stationary housing and has engaging contact therewith, wherein an entirety of the annularly extending O-ring is disposed in the annularly extending groove. 7. The scroll compressor of claim 6 , wherein the annularly extending O-ring contacts at least one inner face of the orbiting scroll located within and adjacent the annularly extending groove. 8. The scroll compressor of claim 6 , wherein a cross-section of the annularly extending gasket taken through a plane parallel to a longitudinal axis of the scroll compressor is rectangular in shape. 9. The scroll compressor of claim 6 , further comprising at least one intermediate pressure duct formed in the orbiting scroll, the intermediate pressure duct being in fluid communication with the intermediate pressure chamber. 10. A scroll compressor for a motor vehicle air conditioning system comprising: a first housing including a high pressure chamber; a stationary second housing including an outer surface; a fixed scroll overlying and having engaging contact with the stationary second housing; an orbiting scroll orbiting with respect to the fixed scroll, the fixed scroll and the orbiting scroll cooperating to compress a gas and the orbiting scroll including an outer surface facing the stationary second housing, the outer surface of the orbiting scroll defining an annularly extending groove formed therein; an intermediate pressure chamber defined by the stationary second housing adjacent the orbiting scroll; and at least one sealing means extending from the outer surface of the stationary second housing to the outer surface of the orbiting scroll, the at least one sealing means including an annularly extending gasket and an annularly extending O-ring overlying the annularly extending gasket and having engaging contact therewith wherein the annularly extending gasket is positioned adjacent the stationary housing and has engaging contact therewith, wherein an entirety of the annularly extending O-ring is disposed in the annularly extending groove. 11. The scroll compressor of claim 10 , wherein the annularly extending O-ring contacts at least one inner face of the orbiting scroll located within and adjacent the annularly extending groove. 12. The scroll compressor of claim 10 , wherein a cross-section of the annularly extending gasket taken through a plane parallel to a longitudinal axis of the scroll compressor is rectangular in shape. 13. The scroll compressor of claim 10 , further comprising at least one intermediate pressure duct formed in the orbiting scroll in fluid communication with the intermediate pressure chamber. 14. The scroll compressor of claim 10 , wherein a cross-section of the annularly extending O-ring taken through a plane parallel to a longitudinal axis of the scroll compressor is circular in shape.