Bicycle Tire

1 . A bicycle tire comprising: two sidewalls connecting a tread to two beads; and a continuous toothing having a substantially radial generatrix with respect to the rotation axis of the tire in the axial direction, said toothing being positioned circumferentially on an axially outer face of at least one sidewall and comprising an elastomeric material, wherein a retroreflective strip is positioned circumferentially on the sidewall, axially on the outside of the axially outer face of the sidewall and radially on the outside of the toothing, a strip support being interposed axially between the retroreflective strip and the axially outer face of the sidewall, and wherein an axially outer face of the strip support, to which the retroreflective strip is applied, forms an angle of at most equal to 30° with the radial direction of the tire. 2 . The bicycle tire according to claim 1 , wherein the axially outer face of the strip support forms an angle of at most equal to 20° with the radial direction of the tire. 3 . The bicycle tire according to claim 1 , wherein the radial distance d between the radially outermost point of the strip support and the radially outermost equatorial point of the tread in the equatorial plane (XZ) of the tire is at least equal to 0.37 times the section width S. 4 . The bicycle tire according to claim 1 , wherein the strip support comprises an elastomeric material. 5 . The bicycle tire according to claim 1 , wherein the strip support comprises an elastomeric material identical to the elastomeric material of the toothing. 6 . The bicycle tire according to claim 1 , the toothing having a volume V 1 , a width L 1 and a centre of gravity positioned at a radial distance R 1 from the rotation axis of the tire, and the strip support having a volume V 2 , a width L 2 and a centre of gravity positioned at a radial distance R 2 from the rotation axis of the tire, wherein the ratio V 1 *R 1 /L 1 of the product of the volume V 1 multiplied by the radial distance R 1 to the width L 1 of the toothing is equal to the ratio V 2 *R 2 /L 2 of the product of the volume V 2 multiplied by the radial distance R 2 to the width L 2 of the strip support. 7 . A method for manufacturing a bicycle tire according to claim 6 , comprising a step of placing, prior to curing, an element of elastomeric material of constant thickness e on the axially outer face of at least one sidewall, this being intended to form, after curing, a toothing and a strip support, the constant thickness e being equal to the ratio V 1 *R 1 /L 1 of the product of the volume V 1 multiplied by the radial distance R 1 to the width L 1 of the toothing and equal to the ratio V 2 *R 2 /L 2 of the product of the volume V 2 multiplied by the radial distance R 2 to the width L 2 of the strip support. 8 . The bicycle tire according to claim 1 , having a section width S and comprising a toothing comprising teeth, the teeth having a height h and a length L 1 and comprising an elastomeric material having a Shore A hardness, wherein the height h of the teeth is at least equal to 0.6 mm and at most equal to 3 mm, the length L 1 of the teeth is at least equal to 0.15 times and at most equal to 0.50 times the section width S of the tire, and the elastomeric material of the teeth has a Shore A hardness of at least equal to 55 and at most equal to 85. 9 . The bicycle tire according to claim 1 , wherein the toothing comprises a textile material. 10 . The bicycle tire according to claim 1 , wherein the axially outer face of the strip support forms an angle of at most equal to 10° with the radial direction of the tire. 11 . A bicycle tire according to claim 1 , wherein the toothing comprises a textile material of the aliphatic polyamide type.