Ejector refrigeration cycle

What is claimed is: 1. An ejector refrigeration cycle comprising: a compressor that compresses refrigerant, mixed with refrigerant oil, to be a high-pressure refrigerant and discharges the high-pressure refrigerant, the refrigerant oil being compatible with a liquid-phase refrigerant; a radiator that causes the high-pressure refrigerant discharged by the compressor to radiate heat to be a subcooled liquid-phase refrigerant; an ejector having a nozzle that decompresses the refrigerant flowing from the radiator and injects the refrigerant as an injection refrigerant at a high speed and a body that has a refrigerant suction port and a pressure increasing part, the refrigerant suction port that draws refrigerant, as a suction refrigerant, using suction power of the injection refrigerant, the pressure increasing part that mixes the injection refrigerant and the suction refrigerant and increases a pressure of a mixture of the injection refrigerant and the suction refrigerant; a swirl flow generator space that is configured to cause the refrigerant flowing from the radiator to swirl about a center axis of the nozzle at a speed causing a decompression boiling of the refrigerant swirling adjacent to the center axis, the refrigerant flowing into the nozzle; an evaporator that evaporates refrigerant and guides the refrigerant to the refrigerant suction port; an oil separator that separates the refrigerant oil from the high-pressure refrigerant compressed by the compressor and guides the refrigerant oil to flow to a suction side of the compressor; and a capillary tube that connects an outlet of the oil separator to the suction side of the compressor, the refrigerant oil being allowed to return to the compressor through the capillary tube, wherein the oil separator decreases a concentration of the refrigerant oil in the refrigerant, which is to flow into the swirl flow generator space, so as to promote the decompression boiling of the refrigerant in the swirl flow generator space. 2. The ejector refrigeration cycle according to claim 1 , wherein the body has a gas-liquid separator that separates the refrigerant flowing from the pressure increasing part into a liquid-phase refrigerant and a gas-phase refrigerant, the liquid-phase refrigerant separated in the gas-liquid separator flows to an inlet side of the evaporator, and the gas-phase refrigerant separated in the gas-liquid separator flows to the suction side of the compressor. 3. The ejector refrigeration cycle according to claim 1 , further comprising a gas-liquid separator that separates the refrigerant flowing out of the ejector into a liquid-phase refrigerant and a gas-phase refrigerant, wherein the liquid-phase refrigerant separated in the gas-liquid separator flows to an inlet side of the evaporator, and the gas-phase refrigerant separated in the gas-liquid separator flows to the suction side of the compressor. 4. The ejector refrigeration cycle according to claim 1 , further comprising a discharge capacity controller that controls a discharge capacity of the compressor, wherein the discharge capacity controller controls the discharge capacity of the compressor such that a refrigerant evaporating temperature in the evaporator approaches a target evaporating temperature. 5. An ejector refrigeration cycle comprising: a compressor that compresses refrigerant, mixed with refrigerant oil, to be a high-pressure refrigerant and discharges the high-pressure refrigerant, the refrigerant oil being compatible with a liquid-phase refrigerant; a radiator that causes the high-pressure refrigerant discharged by the compressor to radiate heat to be a subcooled liquid-phase refrigerant; an ejector having a nozzle that decompresses the refrigerant flowing from the radiator and injects the refrigerant as an injection refrigerant at a high speed and a body that has a refrigerant suction port and a pressure increasing part, the refrigerant suction port that draws refrigerant, as a suction refrigerant, using suction power of the injection refrigerant, the pressure increasing part that mixes the injection refrigerant and the suction refrigerant and increases a pressure of a mixture of the injection refrigerant and the suction refrigerant; an evaporator that evaporates refrigerant and guides the refrigerant to the refrigerant suction port; an oil separator that separates the refrigerant oil from the high-pressure refrigerant compressed by the compressor and guides the refrigerant oil to flow to a suction side of the compressor; and a capillary tube that connects an outlet of the oil separator to the suction side of the compressor, the refrigerant oil being allowed to return to the compressor through the capillary tube, wherein the oil separator decreases a concentration of the refrigerant oil in the refrigerant, so as to promote a decompression boiling of the refrigerant. 6. The ejector refrigeration cycle according to claim 5 , wherein the body has a gas-liquid separator that separates the refrigerant flowing from the pressure increasing part into a liquid-phase refrigerant and a gas-phase refrigerant, the liquid-phase refrigerant separated in the gas-liquid separator flows to an inlet side of the evaporator, and the gas-phase refrigerant separated in the gas-liquid separator flows to the suction side of the compressor. 7. The ejector refrigeration cycle according to claim 5 , further comprising a gas-liquid separator that separates the refrigerant flowing out of the ejector into a liquid-phase refrigerant and a gas-phase refrigerant, wherein the liquid-phase refrigerant separated in the gas-liquid separator flows to an inlet side of the evaporator, and the gas-phase refrigerant separated in the gas-liquid separator flows to the suction side of the compressor. 8. The ejector refrigeration cycle according to claim 5 , further comprising a discharge capacity controller that controls a discharge capacity of the compressor, wherein the discharge capacity controller controls the discharge capacity of the compressor such that a refrigerant evaporating temperature in the evaporator approaches a target evaporating temperature.