Ejector

What is claimed is: 1. An ejector for a vapor compression refrigeration cycle, the ejector comprising: a body; a swirling space that is formed in the body to swirl a refrigerant flowing into the swirling space through a refrigerant inflow port from which the refrigerant flows in; a pressure reducing space that is formed in the body to reduce a pressure of the refrigerant flowing out of the swirling space; a suction passage that is formed in the body and communicates with a downstream side of the pressure reducing space in a flow direction of the refrigerant, the suction passage that draws the refrigerant from outside; a pressure increasing space that is formed in the body to mix an injection refrigerant injected from the pressure reducing space and a suction refrigerant drawn from the suction passage, the pressure increasing space that increases a pressure of a mixed refrigerant; a nozzle passage that has an annular shape, the nozzle portion at least a part of which is disposed inside the pressure reducing space and inside the pressure increasing space, the nozzle passage that reduces the pressure of a refrigerant flowing out of the swirling space and injects the refrigerant to a space provided with an inner peripheral surface of a portion of the body forming the pressure reducing space; a diffuser passage that is provided with an inner peripheral surface of a portion of the body forming the pressure increasing space and has an annular shape, the diffuser passage that mixes the injection refrigerant and the suction refrigerant and increases a pressure of the mixed refrigerant; a passage forming member that forms the nozzle passage and the diffuser passage; and a drive part that displaces the passage forming member in a direction of a central axis of the nozzle passage and the diffuser passage, wherein the passage forming member has a solid revolution shape having the central axis as an axis thereof and has an outer peripheral diameter increasing from the pressure reducing space toward the pressure increasing space, the drive part has: a pressure responsive member that displaces the passage forming member depending on a temperature and the pressure of the suction refrigerant; and a vibration suppressing portion that suppresses a vibration of the passage forming member, and the vibration suppressing portion has: a first elastic member that applies a load to the passage forming member in a direction in which an area of a cross section perpendicular to the direction of the central axis of the nozzle passage and the diffuser passage decreases; and a second elastic member that applies a load to the passage forming member in a direction opposite from the direction in which the first elastic member applies the load to the passage forming member. 2. The ejector according to claim 1 , further comprising a restricting member that restricts a displacement of the passage forming member caused by the drive part in a direction of the central axis, wherein the restricting member has: a sliding shaft portion that extends in the direction of the central axis and is connected to the passage forming member; and a guide portion that is provided with a sliding hole in which the sliding shaft portion slides in the direction of the central axis. 3. The ejector according to claim 2 , wherein the first elastic member and the second elastic member are disposed to apply the loads to the passage forming member respectively in directions to pull the sliding shaft portion against each other. 4. The ejector according to claim 1 , wherein the drive part has a load adjusting member that adjusts the loads applied to the passage forming member by the vibration suppressing portion. 5. The ejector according to claim 1 , wherein the drive part has a temperature sensing portion in which a temperature sensitive medium of which pressure varies in conjunction with temperature change is encapsulated, the pressure of the temperature sensitive medium changes when a temperature of the suction refrigerant is transferred to the temperature sensitive medium, and the pressure responsive member is displaced depending on the pressure of the temperature sensitive medium in the temperature sensing portion. 6. The ejector according to claim 5 , wherein the temperature sensing portion and the pressure responsive member are formed in an annular shape to surround the central axis.