Vulcanising mould for manufacturing tyres for vehicle wheels

The invention claimed is: 1. A mould for vulcanizing tyres for vehicle wheels, comprising: a moulding cavity having a plurality of sectors configured for operating against a tread band; two bead seats configured for operating against beads of a tyre; and two sidewall plates each extending between said plurality of sectors and one of the bead seats, wherein the bead seats, sidewall plates and/or sectors are mutually movable between an open condition in which they are mutually moved apart, and a closure condition in which the sectors, sidewall plates and bead seats are mutually approached to delimit contours of the moulding cavity, wherein at the closure condition said plurality of sectors in its entirety defines a tread wall whose geometric conformation is a copy of a geometric conformation of the tread band of the moulded and vulcanized tyre, said tread wall being axially asymmetric with respect to a middle line plane of the mould axially equidistant from axially inner or outer edges of the bead seats, said tread wall having a middle circumferential line that is axially offset at a predefined distance with respect to the middle line plane of the mould at the closure condition. 2. The mould as claimed in claim 1 , wherein each bead seat has a radially inner surface and an axially outer surface respectively converging towards an axially outer edge of the bead seat. 3. The mould as claimed in claim 1 , wherein axial terminal portions of said tread wall are radially equidistant from a geometric axis of the moulding cavity. 4. The mould as claimed in claim 1 , further comprising: axial movement devices for axially arranging said bead seats adjacent to each other; and radial movement devices for centripetally moving at least a part of said plurality of sectors. 5. The mould as claimed in claim 4 , wherein the radial movement devices are configured for centripetally moving the sectors after the axial movement devices have axially arranged said bead seats adjacent to each other. 6. The mould as claimed in claim 4 , wherein the radial movement devices are configured for centripetally moving the sectors before the axial movement devices have completed the adjacent axial arrangement of said bead seats. 7. The mould as claimed in claim 1 , further comprising: axial movement devices for axially arranging two sidewall plates adjacent to each other; and radial movement devices for centripetally moving at least a part of said plurality of sectors. 8. The mould as claimed in claim 7 , wherein the radial movement devices are configured for centripetally moving the sectors after the axial movement devices have axially arranged the sidewall plates adjacent to each other. 9. The mould as claimed in claim 7 , wherein the radial movement devices are configured for centripetally moving the sectors before the axial movement devices have completed the axial adjacent arrangement of the sidewall plates. 10. The mould as claimed in claim 9 , wherein each bead seat has a radially inner surface and an axially outer surface respectively converging towards an axially outer edge of the bead seat. 11. The mould as claimed in claim 10 , wherein said tread wall has a middle circumferential line axially equidistant from axially opposed edges of said tread wall and axially offset at a predefined distance with respect to a middle line plane of the mould axially equidistant from the axially outer edges of the bead seats. 12. The mould as claimed in claim 11 , wherein terminal axial portions of said tread wall are radially equidistant from a rotation axis of the tyre.