Liquid ejector and ejector refrigeration cycle

What is claimed is: 1. A liquid ejector for a vapor compression refrigeration cycle device including a compressor that compresses and discharges a refrigerant and a radiator that radiates a heat of the refrigerant, the liquid ejector comprising: an inflow passage forming portion that has a cylindrical shape and includes an inflow refrigerant passage into which the refrigerant flows from an outside; and a liquid ejection body portion that includes a gas-liquid mixing portion that mixes the refrigerant ejected from an ejection refrigerant passage with the refrigerant flowing from the inflow refrigerant passage, wherein the ejection refrigerant passage includes a first refrigerant inflow port into which the refrigerant that has radiated the heat in the radiator flows, and a refrigerant ejection port that ejects the refrigerant into the gas-liquid mixing portion, the ejection refrigerant passage has a passage cross-sectional area that continuously decreases in an axial direction of the inflow passage forming portion from the first refrigerant inflow port to the refrigerant ejection port, the inflow refrigerant passage includes a second refrigerant inflow port into which the refrigerant discharged from the compressor flows, and a refrigerant outflow port from which the refrigerant flows out to the gas-liquid mixing portion, the refrigerant ejection port has an annular shape in a cross-section perpendicular to the axial direction of the inflow passage forming portion, the refrigerant outflow port is disposed on an inner circumferential side of the refrigerant ejection port, and upon the refrigerant being ejected into the gas-liquid mixing portion, the refrigerant is ejected on an outer circumferential side of the refrigerant flowing into the gas-liquid mixing portion. 2. The liquid ejector according to claim 1 , wherein the inflow refrigerant passage has a passage cross-sectional area that continuously decreases in the axial direction of the inflow passage forming portion from the second refrigerant inflow port to the refrigerant outflow port. 3. The liquid ejector according to claim 1 , wherein the gas-liquid mixing portion has a truncated cone shape whose passage cross-sectional area decreases in the axial direction of the inflow passage forming portion away from the refrigerant ejection port. 4. The liquid ejector according to claim 3 , further comprising a divergent passage portion connected to an outlet of the gas-liquid mixing portion, and the divergent passage portion defines a refrigerant passage that has a truncated cone shape whose passage cross-sectional area increases in the axial direction of the inflow passage forming portion away from the gas-liquid mixing portion.