Oil separator and method for producing oil separator

What is claimed is: 1 . An oil separator that separates refrigerant oil from a refrigerant containing the refrigerant oil, comprising: a first separating section that has a cylindrical shape and that has a first inner space in which the refrigerant is capable of swirling by which refrigerant oil is at least partially separated from refrigerant; a second separating section that is disposed below the first separating section, the second separating section having a cylindrical shape and having a second inner space in which the refrigerant that has flowed out from the first separating section is capable of swirling by which refrigerant oil is at least partially separated from refrigerant; an introduction tube that causes a swirl flow of the refrigerant to occur in the first inner space by causing the refrigerant to flow out toward an inner wall surface of the first separating section; a delivery tube that delivers the refrigerant from which the refrigerant oil has been separated; and an exhaust pipe that discharges, from the second inner space, the refrigerant oil separated from the refrigerant, the second separating section having a surface that connects the inner wall surface of the first separating section and an upper end of an inner wall surface of the second separating section and that forms a step, and an angle between the surface and the inner wall surface of the first separating section being 90 degrees or smaller and an angle between the surface and the inner wall surface of the second separating section being 90 degrees or smaller. 2 . The oil separator according to claim 1 , wherein the following relationship is satisfied: 2 ≦D 1 /( D 1 −D 2 )≦18 where D 1 is an inner diameter of the first separating section, and D 2 is an inner diameter of the second separating section. 3 . A method for producing an oil separator that separates refrigerant oil from a refrigerant containing the refrigerant oil, the oil separator including: a first separating section that has a cylindrical shape and that has a first inner space in which the refrigerant is capable of swirling by which refrigerant oil is at least partially separated from refrigerant; a second separating section that is disposed below the first separating section, the second separating section having a cylindrical shape and having a second inner space in which the refrigerant that has flowed out from the first separating section is capable of swirling by which refrigerant oil is at least partially separated from refrigerant; an introduction tube that causes a swirl flow of the refrigerant to occur in the first inner space by causing the refrigerant to flow out toward an inner wall surface of the first separating section; a delivery tube that delivers the refrigerant from which the refrigerant oil has been separated; and an exhaust pipe that discharges, from the second inner space, the refrigerant oil separated from the refrigerant, the second separating section having a surface that connects the inner wall surface of the first separating section and an upper end of an inner wall surface of the second separating section and that forms a step, and an angle between the surface and the inner wall surface of the first separating section being 90 degrees or smaller and an angle between the surface and the inner wall surface of the second separating section being 90 degrees or smaller, the method comprising inserting the second separating section into the first separating section so that an upper end surface of the second separating section serves as the surface.