Patent ID: 9328742
Filing Date: 2016-05-03
CPC Classification: F04F,F25B

Claim Text:
1. An ejector for use in a refrigeration cycle device of a vapor compression type, the ejector comprising: a body part including a refrigerant inlet into which a refrigerant flows, a swirling space in which the refrigerant flowing from the refrigerant inlet swirls, a decompression space in which the refrigerant flowing out of the swirling space is decompressed, a suction passage that communicates with a refrigerant flow downstream side of the decompression space and is a space into which the refrigerant is drawn from an external, and a pressure increase space in which the refrigerant ejected from the decompression space is mixed with the refrigerant drawn from the suction passage; a valve body that is disposed in the decompression space; a passage formation member that is disposed in the pressure increase space and defines a refrigerant passage having a refrigerant passage area gradually expanding toward a downstream side in the refrigerant flow in the pressure increase space; and a drive device that displaces the valve body, wherein the decompression space has a minimum area part smallest in cross-sectional area in a refrigerant passage, the drive device displaces the valve body to change the cross-sectional area of the minimum area part in the refrigerant passage, the refrigerant passage defined by an outer peripheral surface of the valve body functions as a nozzle that decompresses the refrigerant flowing out of the swirling space and ejects the refrigerant, the refrigerant passage defined by an outer peripheral surface of the passage formation member functions as a diffuser that converts velocity energies of the ejected refrigerant and the drawn refrigerant into a pressure energy, the valve body and the passage formation member are provided as separated members; and the pressure increase space and the passage formation member are each formed into a rotating body shape and each have a shape expanding gradually and radially toward the downstream side in the refrigerant flow.