Decompression device

What is claimed is: 1. A decompression device that is used for a vapor compression refrigeration cycle and depressurizes a refrigerant, the decompression device comprising: a decompression device body part including at least one refrigerant inlet through which the refrigerant flows into the decompression device body part, a refrigerant outlet through which the refrigerant flows out of the decompression device body part, a swirling chamber in which the refrigerant flowing from the refrigerant inlet swirls, and a refrigerant passage space through which the refrigerant flows from the swirling chamber which is located upstream of the refrigerant passage space to the refrigerant outlet which is located downstream of the refrigerant passage space, wherein the swirling chamber has a circular shape in cross-section, and the refrigerant inlet extends to the swirling chamber in a tangential direction relative to the swirling chamber; and a valve body that varies a passage sectional area of the refrigerant passage space, wherein the refrigerant passage space includes; a throttle space that is positioned on at least a part of an outer peripheral surface of the valve body and is a space in which the refrigerant flowing out of the swirling chamber is depressurized; a wall surface defining a downstream-side space and extending straight from an upstream end of the downstream-side space to a downstream end of the downstream-side space, the upstream end of the downstream-side space being directly connected to a downstream side of the throttle space in a refrigerant flow direction; and a small passage area portion that is positioned on an upstream side of the throttle space in the refrigerant flow direction, the small passage area portion being smaller in passage sectional area than the throttle space and the downstream-side space, the valve body varies the passage sectional area of the small passage area portion, and the downstream-side space has an annular shape configured to uniformly depressurize the refrigerant flowing into the downstream-side space during the operation of the refrigeration cycle, and wherein the refrigerant outlet includes a refrigerant outflow passage directly connected to the wall surface of the downstream-side space, the refrigerant outflow passage extending at an angle with a center axis of the downstream-side space and communicating with the refrigerant outlet, a connection end of the refrigerant outflow passage directly connected to the wall surface of the downstream-side space includes a shortest point which is the shortest among the connection end in distance to the upstream end of the downstream-side space, the shortest point is separated by a predetermined gap from the upstream end of the downstream-side space, and the predetermined gap is larger than the diameter of the connection end of the refrigerant outflow passage and the outer diameter of the downstream-side space. 2. The decompression device according to claim 1 , wherein an outer shape of the downstream-side space is cylindrical. 3. The decompression device according to claim 1 , wherein an outer shape of the downstream-side space is truncated conical to gradually increase in passage sectional area toward a downstream side in the refrigerant flow direction. 4. The decompression device according to claim 1 , further comprising an actuating bar that displaces the valve body, wherein the actuating bar is disposed in the refrigerant passage space and has a shape extending coaxially with a center axis of the refrigerant passage space. 5. The decompression device according to claim 4 , wherein the actuating bar is rotatable about the center axis of the refrigerant passage space. 6. The decompression device according to claim 1 , wherein the valve body includes a first portion, and a second portion that is positioned on a downstream side of the first portion in the refrigerant flow direction and is larger in outer diameter than the first portion, and the second portion of the valve body is displaced on a downstream side of the small passage area portion in the refrigerant flow direction. 7. The decompression device according to claim 1 , wherein a passage sectional area of the throttle space gradually increases downstream in the refrigerant flow direction. 8. The decompression device according to claim 1 , wherein a number of the refrigerant inlets is plural, and a plurality of refrigerant inlets are disposed symmetrically with respect to a center axis of the swirling chamber. 9. The decompression device according to claim 1 , further comprising a swirling-flow-rate adjusting device that adjusts a flow rate of the refrigerant swirling in the swirling chamber. 10. The decompression device according to claim 9 , wherein the swirling-flow-rate adjusting device is an inflow refrigerant-flow rate adjusting valve that adjusts the flow rate of the refrigerant flowing into the swirling chamber from the refrigerant inlet. 11. The decompression device according to claim 1 , wherein the refrigerant passage space has a circular shape in cross-section, and a center axis of the swirling chamber and a center axis of the refrigerant passage space are disposed coaxially with each other. 12. The decompression device according to claim 1 , wherein the refrigerant outflow passage is directly connected to the downstream end of the downstream-side space. 13. The decompression device according to claim 1 , wherein the wall surface is straight in a cross-sectional plane parallel to the center axis of the downstream-side space. 14. The decompression device according to claim 1 , wherein the downstream-side space has a circular cylindrical shape, and an entire circumferential side of the downstream-side space is defined by the wall surface. 15. The decompression device according to claim 1 , wherein the swirling chamber, the small passage area portion, the throttle space and the downstream-side space are coaxial with respect to the center axis of the downstream-side space, and the small passage area portion is directly connected to both the swirling chamber and the throttle space. 16. The decompression device according to claim 1 , wherein an end of the valve body facing the swirling chamber is tapered toward the swirling chamber. 17. A decompression device used during a vapor compression refrigeration cycle to depressurize a refrigerant, the decompression device comprising: a decompression device body part having a longitudinal axis and extending longitudinally from an upstream end to a downstream end, wherein the decompression device body part includes at least one refrigerant inlet through which the refrigerant flows into the decompression device body part, a swirling chamber in which the refrigerant flowing from the refrigerant inlet swirls, a refrigerant passage space through which the refrigerant flows from the swirling chamber, and at least one refrigerant outlet through which the refrigerant flows out of the decompression device body part, wherein each of the swirling chamber and the refrigerant passage space include a longitudinal axis running longitudinally with, and coaxial to, the longitudinal axis of the decompression device body part, and wherein the swirling chamber is downstream from the at least one refrigerant inlet in a direction of refrigerant flow, and wherein the refrigerant passage space is downstream of the swirling chamber in the direction of refrigerant flow and in direct connection to the swirling chamber, and wherein the at least one refrigerant outlet is downstream of the refrigerant passage