High pressure gas container and manufacturing method for high pressure gas container

The embodiments of this invention in which an exclusive property or privilege is claimed are defined as follows: 1. A high pressure gas container configured to be charged with a high pressure gas thereinto, the high pressure gas container comprising: a liner configured to be charged with the high pressure gas thereinto; and a reinforcing sleeve that envelops an outer surface of the liner, wherein the liner includes: a cylindrical liner trunk portion; and a pair of liner shoulder portions formed integrally with the liner trunk portion by reducing a diameter of respective end portions of the liner trunk portion, the reinforcing sleeve is made from a metal and includes: a sleeve trunk portion fitted to the liner trunk portion; and a pair of sleeve shoulder portions that extend from the sleeve trunk portion and contact the respective liner shoulder portions, in a forming process, an incline angle of an inner surface of each of the sleeve shoulder portions relative to a center line of the high pressure gas container is formed larger than an incline angle of an outer surface of the respective liner shoulder portion relative to the center line, the reinforcing sleeve is seamless, and the inner surface of the sleeve trunk portion contacts the outer surface of the liner trunk portion without gaps. 2. The high pressure gas container as defined in claim 1 , wherein the reinforcing sleeve is formed from the metal having a higher tensile strength than the liner. 3. The high pressure gas container as defined in claim 1 , wherein the reinforcing sleeve is formed from the metal having a smaller thermal expansion coefficient than the liner. 4. The high pressure gas container as defined in claim 1 , wherein the liner is formed from an aluminum alloy, and the reinforcing sleeve is formed from high tensile steel. 5. The high pressure gas container as defined in claim 1 , wherein each of the liner shoulder portions has a tapered outer surface, and the inner surface of the respective sleeve shoulder portion is a tapered inner surface that contacts the outer surface of the liner shoulder portion. 6. The high pressure gas container as defined in claim 1 , wherein the liner trunk portion and the liner shoulder portions comprise a same material, said material extending continuously from one of the liner shoulder portions to the liner trunk portion and then to the other liner shoulder portion. 7. The high pressure gas container as defined in claim 6 , wherein an inner surface of the reinforcing sleeve is in surface contact with said material on an outer surface of the liner, said surface contact extending continuously from the liner trunk portion to each of the liner shoulder portions. 8. The high pressure gas container as defined in claim 7 , wherein an inner diameter of each of the liner shoulder portions is reduced along a surface of said material in the liner shoulder portion, said surface of said material extending continuously from the liner trunk portion to each of the liner shoulder portions. 9. A high pressure gas container configured to be charged with a high pressure gas thereinto, the high pressure gas container comprising: a liner configured to be charged with the high pressure gas thereinto; and a reinforcing sleeve that envelops the liner, wherein the liner includes: a cylindrical liner trunk portion; and a pair of liner shoulder portions formed integrally with the liner trunk portion by reducing a diameter of respective end portions of the liner trunk portion, the reinforcing sleeve is made from a metal and includes: a sleeve trunk portion fitted to the liner trunk portion; and a pair of sleeve shoulder portions that extend from the sleeve trunk portion and contact the respective liner shoulder portions, the reinforcing sleeve is seamless, and an inner surface of the sleeve trunk portion contacts an outer surface of the liner trunk portion without gaps. 10. The high pressure gas container as defined in claim 9 , wherein the liner has two openings opposed to each other along a center line of the high pressure gas container, and each of the liner shoulder portions extends around a corresponding one of said two openings. 11. The high pressure gas container as defined in claim 10 , wherein the metal has a higher tensile strength than the liner, and the metal has a smaller thermal expansion coefficient than the liner. 12. The high pressure gas container as defined in claim 10 , wherein the liner is formed from an aluminum alloy, and the reinforcing sleeve is formed from high tensile steel. 13. The high pressure gas container as defined in claim 11 , wherein each of the liner shoulder portions has a tapered outer surface, and an inner surface of the respective sleeve shoulder portion is a tapered inner surface that contacts the outer surface of the liner shoulder portion. 14. The high pressure gas container as defined in claim 13 , wherein the liner trunk portion and the liner shoulder portions comprise a same material, said material extending continuously from one of the liner shoulder portions to the liner trunk portion and then to the other liner shoulder portion. 15. The high pressure gas container as defined in claim 14 , wherein an inner surface of the reinforcing sleeve is in surface contact with said material on an outer surface of the liner, said surface contact extending continuously from the liner trunk portion to each of the liner shoulder portions. 16. The high pressure gas container as defined in claim 15 , wherein an inner diameter of each of the liner shoulder portions is reduced along a surface of said material in the liner shoulder portion, said surface of said material extending continuously from the liner trunk portion to each of the liner shoulder portions. 17. A manufacturing method for a high pressure gas container configured to be charged with a high pressure gas thereinto, the high pressure gas container having a liner configured to be charged with the high pressure gas thereinto, and a reinforcing sleeve that envelops an outer surface of the liner, the manufacturing method comprising: providing the liner, wherein the liner includes: a cylindrical liner trunk portion; and a pair of liner shoulder portions formed integrally with the liner trunk portion by reducing a diameter of respective end portions of the liner trunk portion, forming the reinforcing sleeve from a metal, wherein the reinforcing sleeve is seamless; a fitting process of fitting a sleeve trunk portion of the reinforcing sleeve to the cylindrical liner trunk portion of the liner, wherein the inner surface of the sleeve trunk portion contacts the outer surface of the liner trunk portion without gaps; and a forming process of throttling respective end portions of the reinforcing sleeve to form a pair of sleeve shoulder portions that extend from the sleeve trunk portion and contact the respective liner shoulder portions, wherein in the forming process, an incline angle of an inner surface of each of the sleeve shoulder portions relative to a center line of the high pressure gas container is formed larger than an incline angle of an outer surface of the respective liner shoulder portion relative to the center line.