Compressor having a lower frame and a method of manufacturing the same

What is claimed is: 1. A method for manufacturing a compressor, the method comprising; providing a cylindrical shell, rotational shaft, a rotor, a stator, a compression device, a lower bearing, a lower frame, and a base: mounting the rotational shaft to the compression device in the cylindrical shell, wherein the rotor and stator are configured to rotate the rotational shaft, and wherein the lower bearing support one side of the rotational shaft; supporting the lower bearing with the tower frame, wherein the lower frame has a main body that contacts an inner circumferential surface of the cylindrical shell and a flange that extends from the main body; coupling the lower bearing to the lower frame, such that a center of an inner circumferential surface of the lower bearing is aligned with a center of the main body of the lower frame; press-fitting the lower frame into a lower end portion of the cylindrical shell until the flange contacts the lower end portion of the cylindrical shell; mounting the lower frame press-fitted in the cylindrical shell onto the base to seal the lower end portion of the cylindrical shell, wherein the base has a mounting surface that contacts a lower surface of the flange and an annular wall that faces an outer circumferential surface of the flange; and welding the outer circumferential surface of the flange, an outer circumferential surface of the cylindrical shell, and an inner circumferential surface of the annular wall together. 2. The method for manufacturing the compressor of claim 1 , where the flange extends from an outer circumferential portion of the main body. 3. The method for manufacturing the compressor of claim 2 , wherein the flange extends from the outer circumferential portion of the main body at a lower end portion thereof. 4. The method for manufacturing the compressor of claim 2 , wherein an outer end portion of the flange extends substantially between the outer circumferential surface and the inner circumferential surface of the cylindrical shell. 5. The method for manufacturing the compressor of claim 1 , further comprising processing an upper surface of the flange to extend substantially perpendicular to the rotational shaft. 6. The method for manufacturing the compressor of claim 1 , wherein the main body and the inner circumferential surface of the lower bearing are processed to be concentric with each other in a coupled state in which the lower frame and the lower bearing are fitted to each other. 7. The method for manufacturing the compressor of claim 6 , wherein the main body and the inner circumferential surface of the lower bearing are processed in a simultaneous manner. 8. The method for manufacturing the compressor of claim 1 , further comprising forming a mounting portion on the base such that the flange is mounted thereon. 9. The method for manufacturing the compressor of claim 8 , wherein the mounting portion corresponds in shape to a shape of the lower frame. 10. The method for manufacturing the compressor of claim 8 , wherein the flange extends from an outer circumferential portion of the main body at a lower end portion thereof, and wherein the mounting portion comprises the mounting surface that contacts the lower surface of the flange and the annular wall that contacts the outer circumferential portion of the flange. 11. The method for manufacturing the compressor of claim 10 , wherein an inner diameter of the base at an upper portion of the annular wall is greater then an outer diameter of the cylindrical shell. 12. The method for manufacturing the compressor of claim 8 , wherein a portion of the base with respect to cylindrical shell depend on mounting of the flange onto the mounting portion. 13. The method for manufacturing the compressor of claim 1 , wherein an outer circumferential surface of the main body contacts all or a portion of the inner circumferential surface of the cylindrical shell after the press-fitting. 14. The method for manufacturing the compressor of claim 1 , wherein the lower bearing comprises an inner circumferential surface that rotatably supports an outer circumferential surface of the rotational shaft, and wherein the inner circumferential surface and the flange of the lower frame are concentric with each other after the mounting. 15. A method for manufacturing a compressor, the method comprising: providing a cylindrical shell, a rotational shaft, a stator, a compression device, a lower bearing, a lower frame, and a base; mounting the rotational shaft to the compression device in the cylindrical shell, wherein the rotor and stator are configured to rotate the rotational shaft, and wherein the lower bearing supports one side of the rotational shaft; supporting the lower bearing with the lower frame, wherein the lower frame has a main body that contacts an inner circumferential surface of the cylindrical shell and a flange that extends from the main body; coupling the lower bearing to the lower frame, such that a center of an inner circumferential surface of the lower bearing is aligned with a center of the main body of the lower frame; press-fitting the lower frame into a lower end portion of the cylindrical shell until the flange contacts the lower end portion of the cylindrical shell; mounting the lower frame press-fitted in the cylindrical shell onto t he base to seal the lower end portion of the cylinder shell, wherein the base has a mounting surface that contacts a lower surface of the flange and an annular wall that is spaced apart from the entire outer circumferential surface of the shell; and welding the outer circumferential surface of the flange, an outer circumferential surface of the cylindrical shell, and an inner circumferential surface of the annular wall together. 16. The method for manufacturing the compressor of claim 15 , wherein the flange extends from an outer circumferential portion of the main body. 17. The method for manufacturing the compressor of claim 15 , further including processing an upper surface of the flange to extend substantially perpendicular to the rotational shaft. 18. The method for manufacturing the compressor of claim 15 , wherein the main body and the inner circumferential surface of the lower bearing are concentric with each other in a coupled state in which the lower frame and the lower bearing are fitted to each other. 19. The method for manufacturing the compressor of claim 15 , further including forming a mounting portion on the base such that the flange is mounted thereon. 20. The method for manufacturing the compressor of claim 15 , wherein an outer circumferential surface of the main body contacts all or a portion of an inner circumferential surface of the cylindrical shell after the press-fitting.