Tire with a directional tread comprising curved blocks with incisions

The invention claimed is: 1. A tire comprising a directional tread, said tread comprising two edges and a centre, said tread comprising a plurality of blocks, each said block extending continuously along an overall curvature C from one of the edges towards the centre of said tread, forming a block central end, each said block having a width WB and a length LB, said width increasing from the block central end in the direction of the edge, all or some of the blocks of the tread comprising a median sipe of length S, said median sipe extending along a curvature C′ substantially identical to the curvature C of the block, wherein the length S of the median sipe is determined such that 0.5·LB≤S≤0.8·LB, and wherein all or some of the blocks of the tread comprise a lateral sipe that is arranged in continuation of the median sipe and is decoupled from said median sipe, wherein all or some of the blocks of the tread comprise a V-shaped circumferential sipe having a point of the V arranged at an opposite end of the median sipe from the block central end, said V-shaped circumferential sipe extending from one edge of the block to the other, and wherein the lateral sipe continues from the median sipe at a circumferential level of the point of the V of the V-shaped circumferential sipe. 2. The tire according to claim 1 , wherein the median sipe extends from the block central end. 3. The tire according to claim 1 , wherein the lateral sipe widens from a certain depth in the tread, forming a sipe widening, said sipe widening opening onto the shoulder of the tire, beyond the edge of the tread. 4. The tire according to claim 1 , wherein the tip of the V of the V-shaped circumferential sipe is at an angle α of between 100° and 170°. 5. The tire according to claim 1 , wherein the blocks comprise at least three zones: a central zone at an angle β1 with respect to the transverse direction such that 35°≤β1≤65°, an edge zone at an angle β3 such that 0°≤β3≤10°, and an intermediate zone between the central zone and the edge zone at an angle β2 for continuity between the three zones. 6. The tire according to claim 1 , wherein at least some of the median sipes comprise a sipe chamfer. 7. The tire according to claim 6 , wherein the sipe chamfer is located in the intermediate zone of the block. 8. The tire according to claim 1 , wherein at least some of the blocks have a block chamfer provided at the trailing edge in the intermediate zone and/or the edge zone, the central zone not having a chamfer. 9. The tire according to claim 1 , wherein at least some of the median sipes comprise stiffening means which connect, for each sipe, the opposite faces of this sipe. 10. The tire according to claim 9 , wherein the stiffening means are arranged in the sipe at spacings of 5 to 20 mm. 11. The tire according to claim 9 , wherein, in at least one sipe, the spacing between the stiffening means is variable. 12. The tire according to claim 9 , wherein the stiffening means are integral with the tread. 13. The tire according to claim 1 , wherein the blocks are comprised of an elastomer composition based on a diene elastomer, a plasticizing system and an interlinking system, wherein the elastomer composition has a glass transition temperature of between −40° C. and −15° C. and a shear modulus G* measured at 60° C. of between 0.5 MPa and 1.1 MPa. 14. The tire according to claim 13 , wherein the glass transition temperature of the elastomer composition is between −20° C. and −30° C. 15. The tire according to claim 13 , wherein the shear modulus G* is between 0.9 MPa and 1 MPa. 16. The tire according to claim 1 , wherein the tip of the V of the V-shaped circumferential sipe is at an angle α of between 150° and 170°.