Mandrel structure and manufacturing method thereof

The invention claimed is: 1. A mandrel structure for use in manufacturing a fiber reinforced resin vessel by a filament winding process, comprising: a shaft having a pair of axial ends configured to be supported by a drive unit; a mandrel having the shaft passed therethrough; and a pair of fittings having the shaft passed therethrough and projecting axially from respective axial ends of the mandrel; wherein the mandrel is formed as a hollow shell made of a water-soluble material, and includes a pair of shaft holes receiving the shaft therein, and a receiving recess formed in a part of the mandrel surrounding each shaft hole and configured to engage the corresponding fitting in a rotationally fast manner, wherein each fitting includes a tubular portion receiving the shaft therein, and a flange provided at a base end of the tubular portion, wherein the shaft includes a middle part, and a pair of end parts extending from either axial end of the middle part in a coaxial relationship, and having a smaller diameter than the middle part so as to define an annular shoulder surface in cooperation with the middle part, each end part being provided with a male screw thread on an outer circumferential surface thereof, and wherein the mandrel structure further comprises a pair of positioning nuts each having a female screw thread on an inner circumferential surface thereof configured to threadably engage the male screw thread of the corresponding end part, each positioning nut being provided with a first abutting portion abutting against or opposing the annular shoulder surface, and a second abutting portion abutting against an end of the tubular portion remote from the flange so that the mandrel and the fittings are clamped between the two positioning nuts. 2. The mandrel structure according to claim 1 wherein each receiving recess is provided with radial extensions extending radially outward, and the flange is provided with radial projections extending radially from the flange and snugly received in the corresponding radial extensions in a complementary manner. 3. The mandrel structure according to claim 2 , wherein each flange is provided with a first surface facing outward and smoothly continuous with an adjoining outer surface of the mandrel. 4. The mandrel structure according to claim 3 , wherein the first surface has a surface roughness of 10 μm to 15 μm. 5. The mandrel structure according to claim 3 , wherein a second surface of the flange facing away from the first surface is provided with a plurality of radially extending ribs, and the receiving recess is provided with a bottom surface formed with a plurality of engagement grooves receiving the corresponding ribs in a complementary manner. 6. The mandrel structure according to claim 5 , wherein the radially extending ribs are provided on the respective radial projections, and each extend substantially over an entire length of the corresponding radial projection. 7. The mandrel structure according to claim 2 , wherein each tubular portion is provided with an annular rib extending circumferentially around a part thereof adjacent to the flange. 8. The mandrel structure according to claim 1 , wherein each positioning nut includes a tubular nut main body having a larger outer diameter than the tubular portion, and a nut extension extending coaxially from the nut main body and having a smaller outer diameter than an inner diameter the tubular portion, the first abutting portion being defined by a free end of the nut extension, the second abutting portion being defined by an annular shoulder surface formed between the nut main body and the nut extension. 9. The mandrel structure according to claim 1 , wherein each end part of the shaft has a free end extending through the corresponding positioning nut and received by a support hole of the drive unit. 10. The mandrel structure according to claim 9 , wherein the middle part of the shaft is provided with a pair of first O-ring grooves each extending annularly around an outer circumferential surface of a part thereof located in the corresponding tubular portion, each first O-ring groove receiving therein a first O-ring in contact with an inner circumferential surface of the corresponding tubular portion. 11. The mandrel structure according to claim 9 , wherein the free end of each end part of the shaft is provided with a second O-ring groove extending annularly around an outer circumferential surface thereof, and receiving a second O-ring in contact with an inner circumferential surface of the corresponding support hole. 12. The mandrel structure according to claim 1 , wherein the mandrel is made of a material containing pulp and a binder containing starch. 13. A method of manufacturing a mandrel structure for use in manufacturing a fiber reinforced resin vessel by a filament winding process, comprising: passing a shaft axially through a mandrel formed as a hollow shell made of a water-soluble material, the shaft including a middle part, and a pair of end parts extending from either axial end of the middle part in a coaxial relationship, and having a smaller diameter than the middle part so as to define an annular shoulder surface in cooperation with the middle part, each end part being provided with a male screw thread on an outer circumferential surface thereof; fitting a pair of fittings including a tubular portion and a flange to respective axial ends of the mandrel so that end parts of the shaft projecting axially from the respective axial ends of the mandrel are passed through the respective fittings and the flange of each fitting is received in a receiving recess formed in the corresponding axial end of the mandrel in a rotationally fast manner; threading a pair of positioning nuts each having a female screw thread on an inner circumferential surface thereof configured to threadably engage the male screw thread on the male screw thread on each of the end parts of the shaft so that a first abutting portion of each positioning nut abuts against the annular shoulder surface, a second abutting portion of each positioning nut abuts against an end of the tubular portion remote from the flange, and the two fittings are clamped between the mandrel and the two positioning nuts. 14. A mandrel structure for use in manufacturing a fiber reinforced resin vessel by a filament winding process, comprising: a shaft having a pair of axial ends configured to be supported by a drive unit; a mandrel having the shaft passed therethrough; and a pair of fittings having the shaft passed therethrough and projecting axially from respective axial ends of the mandrel; wherein the mandrel is formed as a hollow shell made of a water-soluble material, and includes a pair of shaft holes receiving the shaft therein, and a receiving recess formed in a part of the mandrel surrounding each shaft hole and configured to engage the corresponding fitting in a rotationally fast manner, wherein each fitting includes a tubular portion receiving the shaft therein, and a flange provided at a base end of the tubular portion, wherein each flange is provided with a first surface facing outward and smoothly continuous with an adjoining outer surface of the mandrel, and wherein a second surface of the flange facing away from the first surface is provided with a plurality of radially extending ribs, and the receiving recess is provided with a bottom surface formed with a plurality of engagement grooves receiving the corresponding ribs in a complementary manner.