Resin filler tube and manufacturing method for the same

What is claimed is: 1 . A resin filler tube to be welded to an outer circumferential edge of an opening hole of a fuel tank, the resin filler tube comprising: a tubular body having an outermost layer formed by using an outermost layer material, and one or more inner layers each formed by using an inner layer material; a flange having a plurality of layers that are of same kinds as those of the tubular body, the flange having a diameter greater than an outer diameter of the tubular body, a thickness greater than a thickness of the tubular body, and a predetermined width in an axial direction, the flange having a first axial end face forming a weld surface to be welded to the outer circumferential edge of the opening hole of the fuel tank; and a base-end-side reverse tapered portion having a plurality of layers that are of same kinds as those of the tubular body, the base-end-side reverse tapered portion connecting between an end of the tubular body on the fuel tank side and an end of an outer circumferential surface of the flange on a side opposite to the fuel tank side, the base-end-side reverse tapered portion being reversely tapered so as to increase a diameter toward the flange, wherein the base-end-side reverse tapered portion is formed so as to have an inner diameter that is not less than an inner diameter of the tubular body over an entire range in the axial direction. 2 . The resin filler tube according to claim 1 , wherein an inner circumferential surface of the base-end-side reverse tapered portion has a reverse tapered portion having a diameter increased toward the flange. 3 . The resin filler tube according to claim 1 , wherein the base-end-side reverse tapered portion includes a first-stage reverse tapered portion connected to the end of the tubular body on the fuel tank side, the first-stage reverse tapered portion having a diameter increased toward the flange, and a second-stage reverse tapered portion connecting between an end of the first-stage reverse tapered portion and the end of the outer circumferential surface of the flange on the side opposite to the fuel tank side, the second-stage reverse tapered portion having a diameter increased toward the flange, the second-stage reverse tapered portion having an outer circumferential surface that has a taper angle greater than a taper angle of an outer circumferential surface of the first-stage reverse tapered portion. 4 . The resin filler tube according to claim 3 , wherein the taper angle of the outer circumferential surface of the first-stage reverse tapered portion is set such that an angle of the outer circumferential surface of the first-stage reverse tapered portion relative to a center axis of the tubular body is not greater than 45°. 5 . The resin filler tube according to claim 1 , wherein an outer circumferential surface of the base-end-side reverse tapered portion is formed so as to have one predetermined taper angle in a range from the end of the tubular body on the fuel tank side to the end of the outer circumferential surface of the flange on the side opposite to the fuel tank side. 6 . The resin filler tube according to claim 5 , wherein a taper angle of the outer circumferential surface of the base-end-side tapered portion is set such that an angle of the outer circumferential surface of the base-end-side reverse tapered portion relative to a center axis of the tubular body is not greater than 45°. 7 . The resin filler tube according to claim 1 , wherein a length of the base-end-side reverse tapered portion in the axial direction is greater than a length of the flange in the axial direction. 8 . The resin filler tube according to claim 1 , further comprising: a leading end tubular portion having a plurality of layers that are of same kinds as those of the tubular body, the leading end tubular portion being located at a leading end side of the resin filler tube, and located radially inward of the opening hole of the fuel tank or located inward of an inner wall surface of the fuel tank; and a leading-end-side tapered portion having a plurality of layers that are of same kinds as those of the tubular body, the leading-end-side tapered portion connecting between a radially inner portion of the flange and an end of the leading end tubular portion on the tubular body side, the leading-end-side tapered portion being tapered so as to have a diameter increased toward the flange, wherein the leading-end-side tapered portion has an inner diameter that is not less than an inner diameter of the leading end tubular portion over an entire range in the axial direction. 9 . The resin filler tube according to claim 8 , wherein an inner circumferential surface of the leading-end-side tapered portion has a tapered portion having a diameter increased toward the flange. 10 . The resin filler tube according to claim 8 , wherein the inner diameter of the tubular body is equal to the inner diameter of the leading end tubular portion. 11 . The resin filler tube according to claim 8 , wherein a taper angle of an outer circumferential surface of the leading-end-side tapered portion is less than a taper angle of an outer circumferential surface of the base-end-side reverse tapered portion, over the entire range. 12 . The resin filler tube according to claim 1 , wherein at least a portion of the tubular body on the fuel tank side is formed in a cylindrical shape. 13 . The resin filler tube according to claim 8 , wherein the leading end tubular portion is formed in a cylindrical shape. 14 . A manufacturing method for manufacturing the resin filler tube according to claim 1 , the manufacturing method comprising: extruding a tubular material having a plurality of layers by an extruder; and forming the resin filler tube by bringing the tubular material into close contact with an inner face formed by a plurality of split molds while sequentially moving each of the plurality of split molds in a direction in which the tubular material is extruded, such that the resin filler tube has an outer face corresponding to the inner face, wherein the tubular body has a predetermined thickness by setting moving speeds of the split molds to a first speed when the tubular material is brought into close contact with a portion of the split molds for forming the tubular body, in the forming of the resin filler tube, the flange has the thickness greater than the thickness of the tubular body by setting moving speeds of the split molds to a second speed lower than the first speed when the tubular material is brought into close contact with a portion of the split molds for forming the flange, in the forming of the resin filler tube; and a thickness of the base-end-side reverse tapered portion is increased by reducing moving speeds of the split molds from the first speed to the second speed when the tubular material is brought into close contact with a portion of the split molds for forming the base-end-side reverse tapered portion, in the forming of the resin filler tube. 15 . The manufacturing method for manufacturing the resin filler tube according to claim 8 , the manufacturing method comprising: extruding a tubular material having a plurality of layers by an extruder; and forming the resin filler tube by bringing the tubular material into close contact with an inner face formed by a plurality of split molds while sequentially moving each of the plurality of split molds in a direction in which the tubular material is extruded, such that the resin filler tube has an outer face corresponding to the inner face, wherein the tubular body has a predetermined