Compressor having oil separator

The invention claimed is: 1. A compressor comprising: a discharge chamber that is formed in a housing; a discharge passage that is formed in the housing and discharges refrigerant from which oil has been separated by the oil separation member to an external refrigerant circuit; and an oil passage that is formed in the housing and introduces oil separated by the oil separation member into an oil reservoir chamber, wherein an oil separation member that is a separate member from the housing and separates oil from refrigerant discharged from the discharge chamber; the oil separation member has a partition member that partitions between the discharge chamber and the discharge passage, a circular ring portion is provided in a manner extending toward the discharge passage in the partition member, a separation space is formed inside of the circular ring portion, at least one introduction hole that communicates the discharge chamber and the discharge passage with each other is formed in the circular ring portion, the at least one introduction hole extends in a tangential direction to the separation space formed in the circular ring portion, a flange portion extending radially outside the circular ring portion from an outer peripheral edge portion of the circular ring portion, wherein the flange portion has an annular shape and is circular, and wherein the flange portion is arranged on a side of the circular ring portion opposite to the partition member; a guide groove formed in an end surface of the flange portion, wherein the guide groove is continuous with the at least one introduction hole; and a groove formed in an end surface of the partition member facing the discharge passage, wherein the groove is continuous with the at least one introduction hole, wherein a refrigerant, which has been discharged to the discharge chamber, is introduced into the separation space via the at least one introduction hole and then circles in the separation space. 2. The compressor according to claim 1 , wherein the oil separation member includes a columnar circulation shaft in a part of the partition member facing the discharge passage. 3. The compressor according to claim 2 , wherein the partition member has a support portion that supports the circulation shaft, the circular ring portion extends from an outer peripheral edge portion of the support portion, and the circulation shaft and the circular ring portion respectively have end surfaces at a side opposite to the support portion, and the end surface of the circulation shaft is arranged on a plane the same as the end surface of the circular ring portion or is closer to the support portion than the end surface of the circular ring portion. 4. The compressor according to claim 1 , wherein in the discharge passage, a throttle member having a reed valve is provided, and the reed valve opens and closes to vary the throttle member in throttle amount. 5. The compressor according to claim 1 , wherein the discharge passage includes a refrigerant discharge space to which refrigerant, from which oil has been separated, is discharged from the oil separation member, the oil passage includes an oil reservoir space in which oil separated from refrigerant by the oil separation member is reserved, the reservoir space is arranged, in the housing, radially outside of the circular ring portion further than the refrigerant discharge space, the oil reservoir space has a width along an axial direction of the circular ring portion that is smaller than a width of the refrigerant discharge space along the axial direction of the circular ring portion. 6. The compressor according to claim 1 , wherein the at least one introduction hole in the circular ring portion comprises a plurality of introduction holes. 7. The compressor according to claim 1 , wherein the at least one introduction hole extends in a direction perpendicular to an axial direction of the circular ring portion.