Refrigerant distributor and refrigeration cycle device

What is claimed is: 1. A refrigerant distributor for a refrigeration cycle device comprising: a body portion defining a swirl space configured to swirl a refrigerant; a refrigerant inflow port from which the refrigerant flows into the swirl space; and first and second refrigerant outflow ports which cause the refrigerant in the swirl space to flow out and distributes the refrigerant to components of the refrigeration cycle device connected to the first and second refrigerant outflow ports, wherein when a line connecting swirl centers of refrigerant swirling in the swirl space is taken as a swirl center line, the refrigerant swirls in the swirl space at such a velocity of a swirl flow that more vapor-phase refrigerant exists on an inner radius side than on an outer radius side and the velocity of swirl flow on the swirl center line at one end side and the velocity of swirl flow on the swirl center line at the other side are different from each other, the first refrigerant outflow port is arranged on an extended line of the swirl center line at the one end side, the second refrigerant outflow port is arranged on the extended line of the swirl center line at the other end side, the first and second refrigerant outflow ports reduce a refrigerant passage area so as to decompress the refrigerant, and at least the first refrigerant outflow port comprises a fixed throttle in which the refrigerant passage area is fixed and throttled, wherein the body portion defines a decreasing cross sectional area so as to define a conical shape and the first refrigerant outflow port defines an increasing cross sectional area with respect thereto, the body portion and the first refrigerant outflow port being immediately adjacent to one another forming a one piece construction. 2. The refrigerant distributor according to claim 1 , wherein the swirl space includes a tapered space having a sectional area perpendicular to a direction in which the first refrigerant outflow port and the second refrigerant outflow port are connected together, and the sectional area of the tapered space in the swirl space is gradually reduced toward one of the first and second refrigerant outflow ports. 3. A refrigeration cycle device comprising the refrigerant distributor according to claim 1 . 4. A refrigeration cycle device comprising: a lower stage compression mechanism configured to compress low-pressure refrigerant until the refrigerant is turned into intermediate-pressure refrigerant and to discharge the intermediate-pressure refrigerant; a higher stage compression mechanism configured to compress the intermediate-pressure refrigerant discharged from the lower stage compression mechanism until the refrigerant is turned into high-pressure refrigerant and to discharge the high-pressure refrigerant; a radiator configured to radiate heat from the refrigerant flowing out of the higher stage compression mechanism; a refrigerant distributor having a refrigerant inflow port from which the refrigerant from the radiator is introduced therein and first and second refrigerant outflow ports from which the refrigerant flows out; and an evaporator disposed to evaporate refrigerant at a refrigerant downstream side of the first refrigerant outflow port, and letting the refrigerant flow out to a suction side of the lower stage compression mechanism, wherein the refrigerant distributor includes a body portion defining a swirl space in which the refrigerant flowing from the refrigerant inflow port is swirled, when the line connecting the swirl centers of refrigerant swirling in the swirl space is taken as swirl center line, the refrigerant in the swirl space swirls at such a velocity of swirl flow that more vapor-phase refrigerant exists on an inner radius side than on an outer radius side and the velocity of swirl flow on the swirl center line at one end side and the velocity of swirl flow on the swirl center line at the other end side are different from each other, the first refrigerant outflow port reduces a refrigerant passage area so as to decompress refrigerant and is arranged on an extended line of the swirl center line at the one end side, the second refrigerant outflow port reduces a refrigerant passage area so as to decompress refrigerant and is arranged on the extended line of the swirl center line at the other end side, the second refrigerant outflow port is coupled to a suction side of the higher stage compression mechanism, and at least the first refrigerant outflow port comprises a fixed throttle in which the refrigerant passage area is fixed and throttled, wherein the body portion defines a decreasing cross sectional area so as to define a conical shape and the first refrigerant outflow port defines an increasing cross sectional area with respect thereto, the body portion and the first refrigerant outflow port being immediately adjacent to one another forming a one piece construction. 5. A refrigeration cycle device comprising: a compressor configured to compress a refrigerant; a radiator configured to radiate heat from the refrigerant flowing out of the compressor; a refrigerant distributor causing the refrigerant flowing out of the radiator to flow thereinto from a refrigerant inflow port and causing the refrigerant to flow out of first and second refrigerant outflow ports; and an evaporator disposed to evaporate refrigerant at a refrigerant downstream side of the first refrigerant outflow port, and letting the refrigerant flow out to a suction side of the compressor, wherein the refrigerant distributor includes a body portion defining a swirl space in which the refrigerant flowing from the refrigerant inflow port is swirled, when the line connecting the swirl centers of refrigerant swirling in the swirl space is taken as swirl center line, the refrigerant in the swirl space swirls at such a velocity of swirl flow that more vapor-phase refrigerant exists on an inner radius side than on an outer radius side and the velocity of swirl flow on the swirl center line at one end side and the velocity of swirl flow on the swirl center line at the other end side are different from each other, the first refrigerant outflow port reduces a refrigerant passage area so as to decompress refrigerant and is arranged on an extended line of the swirl center line at the one end side, the second refrigerant outflow port reduces a refrigerant passage area so as to decompress refrigerant and is arranged on the extended line of the swirl center line at the other end side, the second refrigerant outflow port is coupled to a suction side of the compressor, and at least the first refrigerant outflow port comprises a fixed throttle in which the refrigerant passage area is fixed and throttled, wherein the body portion defines a decreasing cross sectional area so as to define a frustoconical shape and the first refrigerant outflow port defines an increasing cross sectional area with respect thereto, the body portion and the first refrigerant outflow port being immediately adjacent to one another forming a one piece construction. 6. The refrigeration cycle device according to claim 4 , further comprising an accumulator disposed at a refrigerant upstream side of the lower stage compression mechanism to separate the refrigerant drawn into the lower stage compression mechanism into vapor and liquid and to store therein liquid-phase refrigerant. 7. The refrigerant distributor according to claim 1 , wherein the refrigerant inflow is open in a direction perpendicular to the extended line of the swirl center line. 8. The refrigerant distributor according to claim 4 , wherein the refrigerant inflow is open in a direction perpendicular to the extended line of the swirl center line. 9.