Pneumatic tire

The invention claimed is: 1. A pneumatic tire comprising a plurality of sipes on a tread surface, wherein: the plurality of sipes include a large intermediate width sipe having: a pair of intermediate sipe wall surface portions being located on an intermediate portion of the sipe in a tire radial direction, and facing each other at a constant spacing t 1 ; a pair of bottom-side sipe wall surface portions being adjacent to the intermediate sipe wall surface portions on a sipe bottom side of the sipe, and facing each other at a constant spacing t 2 smaller than the constant spacing t 1 between the pair of intermediate sipe wall surface portions; and a pair of tread-surface-side sipe wall surface portions being adjacent to the intermediate sipe wall surface portions on the tread surface side, and facing each other at a constant spacing t 3 smaller than the constant spacing t 1 between the pair of intermediate sipe wall surface portions; and a spacing along a tire circumferential direction between the large intermediate width sipe arranged within a central region of the tread surface and another sipe or groove arranged within the central region of the tread surface and adjacent to the large intermediate width sipe in the tire circumferential direction is 2.0 to 4.0 times of a sipe depth D of the large intermediate width sipe, the large intermediate width sipe further has a pair of outer end sipe wall surface portions extending across an entire length in the tire radial direction of the large intermediate width sipe on ends of both sides in a longitudinal direction of the large intermediate width sipe that is a direction along a sipe widthwise central line of the large intermediate width sipe when a developed view of the tread surface is viewed in plan, and the pair of outer end sipe wall surface portions extend across the entire length in the longitudinal direction of the large intermediate width sipe on an end on the tread surface side of the large intermediate width sipe, and face each other at the constant spacing t 1 between the pair of intermediate sipe wall surface portions. 2. The pneumatic tire according to claim 1 , wherein: the large intermediate width sipe is configured such that each of the constant spacing t 2 between the pair of bottom-side sipe wall surface portions and the constant spacing t 3 between the pair of tread-surface-side sipe wall surface portions is 0.3 to 0.75 times of the constant spacing t 1 between the pair of intermediate sipe wall surface portions. 3. The pneumatic tire according to claim 1 , wherein: the large intermediate width sipe is configured such that each of a length W 2 of the pair of bottom-side sipe wall surface portions along a longitudinal direction of the large intermediate width sipe and a length W 3 of the pair of tread-surface-side sipe wall surface portions along the longitudinal direction of the large intermediate width sipe is 0.7 to 1.0 times of a length W 0 of the large intermediate width sipe along the longitudinal direction of the large intermediate width sipe. 4. The pneumatic tire according to claim 1 , wherein: the large intermediate width sipe is configured such that: a length b of the pair of intermediate sipe wall surface portions along the tire radial direction is 0.1 to 0.3 times of the sipe depth D of the large intermediate width sipe; and a central position of the pair of intermediate sipe wall surface portions in the tire radial direction matches a central position of the large intermediate width sipe in the tire radial direction. 5. The pneumatic tire according to claim 1 , wherein: the large intermediate width sipe is configured such that with the sipe depth of the large intermediate width sipe being D, and the length of the pair of intermediate sipe wall surface portions along the tire radial direction being b, each of a length a of the pair of bottom-side sipe wall surface portions and a length c of the pair of tread-surface-side sipe wall surface portions along the tire radial direction is (D−b)/2 or less. 6. The pneumatic tire according to claim 1 , wherein: the plurality of sipes further includes a constant width sipe having a pair of sipe wall surfaces, the pair of sipe wall surfaces extending across an entire sipe depth and facing each other at a constant spacing; the large intermediate width sipe is arranged only within the central region of the tread surface, each of the pair of intermediate sipe wall surface portions, the pair of bottom-side sipe wall surface portions and the pair of tread-surface-side sipe wall surface portions of the large intermediate width sipe being flat and extending in the same planar direction with each other; the constant width sipe is arranged only within a shoulder region located on a tire widthwise side outer than the central region on the tread surface, each of the pair of sipe wall surfaces of the constant width sipe being flat; and a sipe width of the constant width sipe is smaller than an average value of a maximum value and a minimum value of a sipe width of the large intermediate width sipe. 7. The pneumatic tire according to claim 6 , wherein: the pneumatic tire has a specified tire mounting direction relative to the vehicle, such that: the constant width sipe is arranged only within the shoulder region on a vehicle mounting direction inner side on the tread surface, and the shoulder region on a vehicle mounting direction outer side on the tread surface is provided with no sipes. 8. The pneumatic tire according to claim 6 , wherein: a spacing along the tire circumferential direction between the constant width sipe arranged within the shoulder region of the tread surface and another sipe or groove arranged within the shoulder region of the tread surface and adjacent to the constant width sipe in the tire circumferential direction is 0.8 to 1.2 times of a spacing along the tire circumferential direction between the large intermediate width sipe arranged within the central region of the tread surface and another sipe or groove arranged within the central region of the tread surface and adjacent to the large intermediate width sipe in the tire circumferential direction. 9. The pneumatic tire according to claim 2 , wherein: the large intermediate width sipe is configured such that each of a length W 2 of the pair of bottom-side sipe wall surface portions along a longitudinal direction of the large intermediate width sipe and a length W 3 of the pair of tread-surface-side sipe wall surface portions along the longitudinal direction of the large intermediate width sipe is 0.7 to 1.0 times of a length W 0 of the large intermediate width sipe along the longitudinal direction of the large intermediate width sipe. 10. The pneumatic tire according to claim 2 , wherein: the large intermediate width sipe is configured such that: a length b of the pair of intermediate sipe wall surface portions along the tire radial direction is 0.1 to 0.3 times of the sipe depth D of the large intermediate width sipe; and a central position of the pair of intermediate sipe wall surface portions in the tire radial direction matches a central position of the large intermediate width sipe in the tire radial direction. 11. The pneumatic tire according to claim 2 , wherein: the large intermediate width sipe is configured such that with the sipe depth of the large intermediate width sipe being D, and the length of the pair of intermediate sipe wall surface portions along the tire radial direction being b, each of a length a of the pair of bottom-side sipe wall surface portions and a length c of the pair of tread-surface-side sipe wall surface portions along the tire radial dire