Ejector

What is claimed is: 1. An ejector for a vapor compression refrigeration cycle device having an evaporator that evaporates a refrigerant, the ejector comprising: a body including a refrigerant inlet port, a swirling space in which a refrigerant flowing from the refrigerant inlet port is swirled, a depressurizing space in which the refrigerant flowing out of the swirling space is depressurized, a suction passage that communicates with a downstream side of the depressurizing space in a refrigerant flow and draws the refrigerant from an external, and a pressurizing space in which an ejection refrigerant jetted from the depressurizing space is mixed with a suction refrigerant drawn from the suction passage; and a passage formation member which is at least partially arranged inside the depressurizing space and inside the pressurizing space and has a conical shape having a cross-sectional area that increases with distance from the depressurizing space, wherein a refrigerant passage provided between an inner peripheral surface of a portion of the body, which defines the depressurizing space, and an outer peripheral surface of the passage formation member is a nozzle passage functioning as a nozzle that depressurizes and jets the refrigerant flowing out of the swirling space, a refrigerant passage provided between an inner peripheral surface of a portion of the body, which defines the pressurizing space, and an outer peripheral surface of the passage formation member is a diffuser passage functioning as a diffuser that mixes the ejection refrigerant and the suction refrigerant together and pressurizes the mixed refrigerant, the diffuser passage has an annular shape in a cross-section surface perpendicular to an axial direction of the passage formation member, and the body further includes a gas-liquid separation space that separates the refrigerant flowing out of the pressurizing space into gas and liquid by the action of a centrifugal force, and a plurality of liquid-phase refrigerant outflow passages through which the liquid-phase refrigerant separated by the gas-liquid separation space flows out to the evaporator. 2. The ejector according to claim 1 , wherein the gas-liquid separation space has a shape of a solid of revolution and is arranged coaxially with the passage formation member, and the plurality of liquid-phase refrigerant outflow passages are arranged symmetrically with respect to an axial center of the gas-liquid separation space in a cross-section surface perpendicular to the axial direction of the gas-liquid separation space. 3. The ejector according to claim 1 , wherein the gas-liquid separation space has a shape of a solid of revolution and is arranged coaxially with the passage formation member, and a flowing direction of the refrigerant from the gas-liquid separation space to the liquid-phase refrigerant outflow passages is a tangential direction of the inner peripheral wall surface of the gas-liquid separation space. 4. The ejector according to claim 2 , wherein inlet portions of the plurality of liquid-phase refrigerant outflow passages, which are open in the gas-liquid separation space, are arranged at equal angular intervals with respect to the axial center of the gas-liquid separation space in a cross-section surface perpendicular to the axial direction of the gas-liquid separation space. 5. The ejector according to claim 1 , wherein the body further includes a plurality of refrigerant suction ports through which refrigerants flow into the suction passage from the external. 6. The ejector according to claim 5 , wherein the number of liquid-phase refrigerant outflow passages and the number of refrigerant suction ports are different from each other. 7. The ejector according to claim 1 , wherein a pressure loss in at least one of the plurality of liquid-phase refrigerant outflow passages is different from a pressure loss in another of the plurality of liquid-phase refrigerant outflow passages. 8. The ejector according to claim 1 , further comprising a swirling promotion portion that promotes the swirling of the refrigerant flowing out of the diffuser passage around an axis of the passage formation member. 9. The ejector according to claim 1 , wherein the refrigerant flowing in the diffuser passage swirls around an axis of the passage formation member.