Pneumatic tire and pneumatic tire manufacturing method

The invention claimed is: 1. A pneumatic tire comprising: a belt portion; and a tread portion provided with a plurality of shoulder lug grooves spaced apart in a tire circumferential direction, the plurality of shoulder lug grooves each extending outward in a tire lateral direction, opening to a ground contact end, comprising a closed end inward in the tire lateral direction, and the shoulder lug grooves extending linearly from the closed end outward in the tire lateral direction to open to the ground contact end, each of the plurality of shoulder lug grooves extending from a surface of the tread portion in a vertical direction with respect to the surface and comprising an inclined wall surface in each of groove walls of both sides of each of the plurality of shoulder lug grooves, the inclined wall surfaces each extending from the surface of the tread portion to a groove bottom side of the shoulder lug groove and as proceeding toward the groove bottom each approaching a side of a center of a groove width of the shoulder lug groove in a region of each of the plurality of shoulder lug groove from an end of a belt having a greatest width in the belt portion to an inner side in the tire lateral direction, each of the plurality of shoulder lug grooves having a groove width at the surface of the tread portion that decreases inward in the tire lateral direction, and comprising a portion where a groove cross-sectional area is kept constant at least by a decrease inward in the tire lateral direction of a groove wall angle with respect to the vertical direction of the inclined wall surfaces of the both sides of each of the plurality of shoulder lug grooves, the portion being provided in the tire lateral direction across a length of at least 20% of half a tire development width, and the portion where the groove cross-sectional area is kept constant having the groove cross-sectional area of from 97% to 103% with respect to an average groove cross-sectional area of the portion where the groove cross-sectional area is kept constant. 2. The pneumatic tire according to claim 1 , wherein the groove wall angle of the portion changes within a range from 10 to 35 degrees. 3. The pneumatic tire according to claim 1 , wherein a ratio of a minimum groove depth to a maximum groove depth in a region of each of the plurality of shoulder lug grooves from a position separated from a tire centerline of the pneumatic tire by one-fourth of the tire development width to the ground contact end is 0.8 or greater. 4. The pneumatic tire according to claim 3 , wherein the ratio is from 0.85 to 0.95; and the groove wall angle in the portion changes within a range from 15 to 25 degrees in the portion. 5. The pneumatic tire according to claim 1 , wherein the shoulder lug groove comprises a groove bottom inclined surface inclined such that a groove depth of each of the plurality of shoulder lug grooves gradually decreases as approaching closer to the closed end; and the groove bottom inclined surface has, in a profile cross section of the pneumatic tire along a tire radial direction, an inclination angle with respect to a normal line of a surface of the tread portion ranging from 20 to 45 degrees, at the closed end. 6. The pneumatic tire according to claim 1 , wherein the portion where the groove cross-sectional area is kept constant is from a position separated from a tire centerline of the pneumatic tire by a distance L 1 to a position separated from the tire centerline by a distance L 2 ; L 1 is a distance equivalent to from 40 to 60% of half of the tire development width; and L 2 is a distance equivalent to from 70 to 90% of half of the tire development width. 7. The pneumatic tire according to claim 1 , wherein the portion where the groove cross-sectional area is kept constant has a length in the tire lateral direction of no greater than 35% of half of the tire development width. 8. The pneumatic tire according to claim 1 , wherein a groove depth of each of the plurality of shoulder lug grooves changes in the portion where the groove cross-sectional area is kept constant. 9. The pneumatic tire according to claim 2 , wherein a ratio of a minimum groove depth to a maximum groove depth in a region of each of the plurality of shoulder lug grooves from a position separated from a tire centerline of the pneumatic tire by one-fourth of the tire development width to the ground contact end is 0.8 or greater. 10. The pneumatic tire according to claim 9 , wherein the ratio is from 0.85 to 0.95; and the groove wall angle in the portion changes within a range from 15 to 25 degrees in the portion. 11. The pneumatic tire according to claim 10 , wherein the shoulder lug groove comprises a groove bottom inclined surface inclined such that a groove depth of each of the plurality of shoulder lug grooves gradually decreases as approaching closer to the closed end; and the groove bottom inclined surface has, in a profile cross section of the pneumatic tire along a tire radial direction, an inclination angle with respect to a normal line of a surface of the tread portion ranging from 20 to 45 degrees, at the closed end. 12. The pneumatic tire according to claim 11 , wherein the portion where the groove cross-sectional area is kept constant is from a position separated from the tire centerline of the pneumatic tire by a distance L 1 to a position separated from the tire centerline by a distance L 2 ; L 1 is a distance equivalent to from 40 to 60% of half of the tire development width; and L 2 is a distance equivalent to from 70 to 90% of half of the tire development width. 13. The pneumatic tire according to claim 12 , wherein the portion where the groove cross-sectional area is kept constant has a length in the tire lateral direction of no greater than 35% of half of the tire development width. 14. A method of manufacturing a pneumatic tire, the method comprising the steps of: molding an unvulcanized green tire that comprises a belt portion; and enclosing and heating the green tire in a mold; the mold comprising a plurality of protrusion portions for forming shoulder lug grooves that extend linearly in one direction such that a plurality of shoulder lug grooves, each extending outward in a tire lateral direction, opening to a ground contact end, comprising a closed end inward in a tire lateral direction, are provided spaced apart in a tire circumferential direction in a tread portion of the pneumatic tire, and the shoulder lug grooves extending linearly from the closed end outward in the tire lateral direction to open to the ground contact end, each of the plurality of protrusion portions extending from a mold surface corresponding to the tread surface in a vertical direction with respect to the mold surface and comprising an inclined wall surface in each of side walls of both sides of each of the plurality of protrusion portions corresponding to a groove wall of the shoulder lug groove, the inclined wall surfaces as proceeding toward a protruded side each approaching a center side of a protrusion width of the protrusion portion, in a region of each of the plurality of protrusion portions from an end of a belt having a greatest width in the belt portion of the green tire to an inner side in the tire lateral direction, each of the plurality of protrusion portions having a width at a base portion of the protrusion portion that decreases inward in the tire lateral direction, and comprising a portion where a cross-sectional area of each of the plurality of protrusion portions is kept constant at least by a decrease inward in the tire lateral direction in a wall inclinat