Scroll compressor having a first and second oldham couplings

The invention claimed is: 1. A scroll compressor comprising: a first fixed scroll member comprising a first fixed end plate and a first fixed spiral wrap provided on one face of the first fixed end plate, a first orbiting scroll member comprising a first orbiting end plate and a first orbiting spiral wrap provided on one face of the first orbiting end plate, the first fixed spiral wrap and the first orbiting spiral wrap forming a plurality of first compression chambers, a second fixed scroll member comprising a second fixed end plate and a second fixed spiral wrap provided on one face of the second fixed end plate, a second orbiting scroll member comprising a second orbiting end plate and a second orbiting spiral wrap provided on one face of the second orbiting end plate, the second fixed spiral wrap and the second orbiting spiral wrap forming a plurality of second compression chambers, wherein the first and second orbiting scroll members orbit in phase opposition, a first Oldham coupling provided between the first orbiting scroll member and the first fixed scroll member, and preventing rotation of the first orbiting scroll member with respect to the first fixed scroll member, the first Oldham coupling being slidably mounted with respect to the first fixed scroll member along a first displacement direction, and a second Oldham coupling provided between the second orbiting scroll member and the second fixed scroll member, and preventing rotation of the second orbiting scroll member with respect to the second fixed scroll member, the second Oldham coupling being slidably mounted with respect to the second fixed scroll member along a second displacement direction, wherein the first and second displacement directions of the first and second Oldham couplings are substantially parallel with respect to each other. 2. The scroll compressor according to claim 1 , wherein an orbital diameter of the first orbiting scroll member is substantially equal to an orbital diameter of the second orbiting scroll member. 3. The scroll compressor according to claim 2 , wherein orbital centers of the first and second orbiting scroll members are offset from each other by a predetermined distance substantially equal to the orbital diameters of the first and second orbiting scroll members. 4. The scroll compressor according to claim 1 , wherein the stroke length of the first Oldham coupling along the first displacement direction is substantially equal to the stroke length of the second Oldham coupling along the second displacement direction. 5. The scroll compressor according to claim 1 , wherein the first Oldham coupling includes: a first annular body, a first pair of first engaging projections provided on a first side of the first annular body, the first engaging projections of the first Oldham coupling being slidably engaged in a first pair of first guiding grooves provided on the first fixed scroll member, said first guiding grooves being offset and extending substantially parallel to the first displacement direction, and a second pair of second engaging projections provided on a second side of the first annular body, the second engaging projections of the first Oldham coupling being slidably engaged in a second pair of second guiding grooves provided on the first orbiting scroll member, said second guiding grooves being offset and extending substantially perpendicularly to the first displacement direction. 6. The scroll compressor according to claim 1 , wherein the second Oldham coupling includes: a second annular body, a first pair of first engaging projections provided on a first side of the second annular body, the first engaging projections of the second Oldham coupling being slidably engaged in a first pair of first guiding grooves provided on the second fixed scroll member, said first guiding grooves being offset and extending substantially parallel to the second displacement direction, and a second pair of second engaging projections provided on a second side of the second annular body, the second engaging projections of the second Oldham coupling being slidably engaged in a second pair of second guiding grooves provided on the second orbiting scroll member, said second guiding grooves being offset and extending substantially perpendicularly to the second displacement direction. 7. The scroll compressor according to claim 1 , further comprising a drive shaft adapted for driving the first and second orbiting scroll members in orbital movements, the drive shaft having rotation axis. 8. The scroll compressor according to claim 7 , wherein orbital centers of the first and second orbiting scroll members are equally distant from the rotation axis of the drive shaft. 9. The scroll compressor according to claim 1 , further comprising a drive shaft adapted for driving the first and second orbiting scroll members in orbital movements, the drive shaft having rotation axis, wherein in operation, centers of gravity of the first and second Oldham couplings are constantly symmetrically located with respect to the rotation axis of the drive shaft. 10. The scroll compressor according to claim 1 , wherein the first orbiting spiral wrap projects in a first projection direction, and the second orbiting spiral wrap projects in a second projection direction opposite to the first projection direction. 11. The scroll compressor according to claim 1 , wherein: the first orbiting end plate includes a first face on which is provided the first orbiting spiral wrap, and a second face opposite to the first face of the first orbiting end plate, and the second orbiting end plate includes a first face on which is provided the second orbiting spiral wrap, and a second face opposite to the first face of the second orbiting end plate, the second faces of the first and second orbiting end plates facing each other. 12. A method of operating a scroll compressor, comprising the steps of: providing the scroll compressor with: a first fixed scroll member comprising a first fixed end plate and a first fixed spiral wrap provided on one face of the first fixed end plate, a first orbiting scroll member comprising a first orbiting end plate and a first orbiting spiral wrap provided on one face of the first orbiting end plate, the first fixed spiral wrap and the first orbiting spiral wrap forming a plurality of first compression chambers, a second fixed scroll member comprising a second fixed end plate and a second fixed spiral wrap provided on one face of the second fixed end plate, a second orbiting scroll member comprising a second orbiting end plate and a second orbiting spiral wrap provided on one face of the second orbiting end plate, the second fixed spiral wrap and the second orbiting spiral wrap forming a plurality of second compression chambers, a first Oldham coupling provided between the first orbiting scroll member and the first fixed scroll member, and preventing rotation of the first orbiting scroll member with respect to the first fixed scroll member, the first Oldham coupling being slidably mounted with respect to the first fixed scroll member along a first displacement direction, and a second Oldham coupling provided between the second orbiting scroll member and the second fixed scroll member, and preventing rotation of the second orbiting scroll member with respect to the second fixed scroll member, the second Oldham coupling being slidably mounted with respect to the second fixed scroll member along a second displacement direction, wherein the first and second displacement directions of the first and second Oldham couplings are substantially parallel with respect to each other, and displacing th