Pushbelt for a continuously variable transmission and a transmission provided therewith

The invention claimed is: 1. A transverse segment for a drive belt with an endless carrier and a plurality of such transverse segments, slidably arranged on the endless carrier, the transverse segment comprising: two main body surfaces extending in a thickness direction of the transverse segment, a first main body surface of the two main body surfaces being provided with a convexly curved tilting edge providing a transition in a height direction of the transverse segment between an upper part of the transverse segment with an essentially constant thickness and a lower part of the transverse segment with the thickness reducing in a direction away from the convexly curved tilting edge, a second main body surface of the two main body surfaces being provided with a flat section, the convexly curved tilting edge being configured to enable the transverse segment and another adjacent transverse segment with same features as the features of the transverse segment of the plurality of transverse segments in the drive belt to mutually tilt or rotate while remaining in pushing contact with one another in the drive belt by a flat section of a second main body surface of two other main body surfaces of the other adjacent transverse segment rolling-off on the convex curvature of the convexly curved tilting edge of the first main body surface of the transverse segment; and at least one cut-out that extends in-between the two main body surfaces and that is bounded by a bearing surface supporting an inside of the endless carrier in a radially-inward direction, wherein a radially-outer extend of the convexly curved tilting edge is located radially outward of the bearing surface, and wherein a radially-inner extend of the convexly curved tilting edge is located radially inward of the bearing surface. 2. The transverse segment according to claim 1 , wherein the convexly curved tilting edge extends in essentially equal amounts radially outward and radially inward of the bearing surface. 3. The transverse segment according to claim 2 , wherein the thickness thereof is between 1.2 and 2.2 mm, and wherein the convex curvature of the convexly curved tilting edge is at least approximated by a circular arc with a radius of between 3 and 15 mm. 4. The transverse segment according to claim 3 , wherein the at least one cut-out is one cut-out, and the transverse segment further comprises two pillar parts, a respective one of the two pillar parts of the transverse segment being provided on either side thereof in the width direction, with radially outer extends of the convexly curved tilting edge located in the pillar parts, wherein the convex curvature of the convexly curved tilting edge is at least approximated by the circular arc with the radius of between 9 and 15 mm. 5. The transverse segment according to claim 3 , wherein the at least one cut-out is one cut-out, and the transverse segment further comprises two pillar parts, a respective one of the two pillar parts of the transverse segment being provided on either side thereof in the width direction, with radially outer extends of the convexly curved tilting edge located in the pillar parts, wherein the convex curvature of the convexly curved tilting edge is at least approximated by the circular arc with the radius of approximately 12 mm. 6. The transverse segment according to claim 2 , wherein the at least one cut-out is one cut-out, and the transverse segment further comprises two pillar parts, a respective one of the two pillar parts of the transverse segment being provided on either side thereof in the width direction, with radially outer extends of the convexly curved tilting edge located in the pillar parts, wherein the convex curvature of the convexly curved tilting edge is at least approximated by a circular arc with a radius of between 9 and 15 mm. 7. The transverse segment according to claim 2 , wherein the at least one cut-out is one cut-out, and the transverse segment further comprises two pillar parts, a respective one of the two pillar parts of the transverse segment being provided on either side thereof in the width direction, with radially outer extends of the convexly curved tilting edge located in the pillar parts, wherein the convex curvature of the convexly curved tilting edge is at least approximated by a circular arc with a radius of approximately 12 mm. 8. The transverse segment according to claim 1 , wherein the thickness thereof is between 1.2 and 2.2 mm, and wherein the convex curvature of the convexly curved tilting edge is at least approximated by a circular arc with a radius of between 3 and 15 mm. 9. The transverse segment according to claim 8 , wherein the at least one cut-out is one cut-out, and the transverse segment further comprises two pillar parts, a respective one of the two pillar parts of the transverse segment being provided on either side thereof in the width direction, with radially outer extends of the convexly curved tilting edge located in the pillar parts, wherein the convex curvature of the convexly curved tilting edge is at least approximated by the circular arc with the radius of between 9 and 15 mm. 10. The transverse segment according to claim 8 , wherein the at least one cut-out is one cut-out, and the transverse segment further comprises two pillar parts, a respective one of the two pillar parts of the transverse segment being provided on either side thereof in the width direction, with radially outer extends of the convexly curved tilting edge located in the pillar parts, wherein the convex curvature of the convexly curved tilting edge is at least approximated by the circular arc with the radius of approximately 12 mm. 11. The transverse segment according to claim 1 , wherein the at least one cut-out is one cut-out, and the transverse segment further comprises two pillar parts, a respective one of the two pillar parts of the transverse segment being provided on either side thereof in a width direction, with radially outer extends of the tilting edge located in the pillar parts, wherein the convex curvature of the convexly curved tilting edge is at least approximated by a circular arc with a radius of between 9 and 15 mm. 12. The transverse segment of claim 11 , wherein the circular arc has a radius of approximately 12 mm. 13. A drive belt for a continuously-variable transmission, the drive belt comprising: an endless carrier; and a plurality of transverse segments, slidably arranged on the endless carrier, the transverse segments each being provided with two main body surfaces extending in a thickness direction of the respective transverse segment, a first main body surface of the two main body surfaces being provided with a convexly curved tilting edge providing a transition in a height direction of the respective transverse segment between an upper part of the respective transverse segment with an essentially constant thickness and a lower part of the respective transverse segment with the thickness reducing in a direction away from the convexly curved tilting edge, a second main body surface of the two main body surfaces being provided with a flat section, the convexly curved tilting edge being configured to enable a pair of adjacent transverse segments of the plurality of transverse segments in the drive belt to mutually tilt or rotate while remaining in pushing contact with one another in the drive belt by a flat section of a second main body surface of the two main body surfaces of one of the pair of adjacent transverse segments rolling-off on the convex curvature of the convexly curved tilting edge of the first main body surface of the other transverse