Bead for a tire for a heavy civil-engineering vehicle

The invention claimed is: 1. A wheel assembly for a heavy vehicle of construction plant type, comprising: at least two rims with a respective rim flange; a tire comprising: two beads intended to come into contact with the two rim flanges, a carcass reinforcement comprising at least one carcass reinforcement layer having a main part wrapped, within each bead, from the inside towards the outside of the tire, around a bead wire of substantially circular meridian section, to form a turn-up, the bead wire being made of a circumferential reinforcing element surrounded by a polymer coating element, a filling element extending the bead wire radially towards the outside and axially separating the main part and the turn-up, the distance (d) between a first segment of the turn-up and the main part decreasing continuously, radially towards the outside, from the bead wire as far as a minimum distance (d 1 ), wherein the distance (d 2 ) between a second segment of the turn-up, extending the first segment of the turn-up radially towards the outside, and the main part is substantially constant and equal to the minimum distance (d 1 ) between the first segment of the tum-up and the main part, wherein a minimum thickness (e) of the polymer coating element of the bead wire is at least equal to 0.04 times the diameter (L 2 ) of a meridian section of the circumferential reinforcing element of the bead wire, and the second segment is defined where the first segment tapers to a minimal distance from the main part, and ends where the tum up begins to taper out, and where the first segment tapers to the minimal distance and where the second segment's distance from the main part varies at most 10% from where the first segment tapers to a minimal distance from the main part to where the tum up begins to taper out, wherein the distance (d) between a third segment of the tum-up extending the second segment of the tum-up radially outwards, and the main part reaches a maximum distance (d 3 ) at a point C on the third segment of the tum-up, wherein a point C of the third segment of the tum-up at which the maximum distance (d 3 ) between the third segment of the tum-up and the main part is reached is a radially outermost point E of the tum-up, wherein the turn-up extends a radial distance HE that is so dimensioned to be at least equal to 0.80 times a radial distance HF corresponding to an axially outermost point F of the carcass reinforcement layer defining the main part. 2. The wheel assembly for a heavy vehicle of construction plant type according to claim 1 , wherein the substantially constant distance (d 2 ) between the second segment of the tum-up and the main part is at most equal to the diameter (L 1 ) of the substantially circular meridian section of the bead wire divided by 4. 3. The wheel assembly for a heavy vehicle of construction plant type according to claim 2 , wherein (d 2 ) is at most equal to (L 1 ) divided by 6. 4. The wheel assembly for a heavy vehicle of construction plant type according to claim 1 , wherein a radial distance (H A ) between a radially innermost point A of the second segment of the tum-up and an axial straight line (S) positioned radially at a nominal diameter (D) of a rim is at least equal to a radial height (H) of a rim flange. 5. The wheel assembly for a heavy vehicle of construction plant type according to claim 1 , wherein a radial distance (H A ) between a radially innermost point A of the second segment of the tum-up and an axial straight line (S) positioned radially at a nominal diameter (D) of a rim is at most equal to 2 times, the radial height (H) of a rim flange. 6. The wheel assembly for a heavy vehicle of construction plant type according to claim 5 , wherein (H A ) is at most equal to 1.2 times (H). 7. The wheel assembly for a heavy vehicle of construction plant type according to claim 1 , wherein a difference between a radial distance (H B ) between a radially outermost point B of the second segment of the tum-up and an axial straight line (S) positioned radially at a nominal diameter (D) of a rim, and a radial distance (H A ) between a radially innermost point A of the second segment of the tum-up and an axial straight line (S) positioned radially at the nominal diameter (D) of the rim is at most equal to a radial height (H) of a rim flange. 8. The wheel assembly for a heavy vehicle of construction plant type according to claim 1 , wherein the maximum distance (d 3 ) between the third segment of the turn-up and the main part is at least equal to 1.2 times, the distance (d 2 ) between the second segment of the turn-up and the main part. 9. The wheel assembly for a heavy vehicle of construction plant type according to claim 8 , wherein (d 3 ) is at least equal to 2 times (d 2 ). 10. The wheel assembly for a heavy vehicle of construction plant type according to claim 1 , wherein the carcass reinforcement layer is made up of reinforcing elements coated in a polymer coating material, and wherein the filling element has a filling element segment contained axially between the second segment of the turn-up and the main part, made of a polymer filling material, wherein the polymer filling material of the segment of filling element contained axially between the second segment of the turn-up and the main part is identical to the polymer coating material of the carcass reinforcement layer. 11. The wheel assembly for a heavy vehicle of construction plant type according to claim 1 , wherein a radial distance (H E ) between a radially outermost point E of the tum-up, and an axial straight line (S) positioned radially at a nominal diameter (D) of a rim is at least equal to 0.8 times a radial distance (H F ) between an axially outermost point F of the main part and an axial straight line (S) positioned radially at the nominal diameter (D) of the rim. 12. A wheel assembly for a heavy vehicle of construction plant type according to claim 1 , wherein a point E is axially the outermost point of the turn-up and spaced axially outwardly from the axially outermost portion of the main part. 13. A method for manufacturing a tire for a heavy vehicle of construction plant type, the tire being placed on at least two rims with a respective rim flange, and tire comprising two beads intended to come into contact with the two nm flanges, comprising: providing a carcass reinforcement for the tire, comprising: at least one carcass reinforcement layer having a main part wrapped, within each bead, from the inside towards the outside of the tire, around a bead wire of substantially circular meridian section, to form a tum-up, the bead wire being made of a circumferential reinforcing element surrounded by a polymer coating element, providing a filling element extending the bead wire radially towards the outside and axially separating the main part and the tum-up; segmenting the tum-up into a first segment, a second segment, and a third segment; sizing with a distance (d) between the first segment of the tum-up and the main part decreasing continuously, radially towards the outside, from the bead wire as far as a minimum distance (d 1 ), sizing with a distance (d 2 ) between a second segment of the tum-up, extending the first segment of the tum-up radially towards the outside, and the main part is substantially constant and equal to the minimum distance (d 1 ) between the first segment of the tum-up and the main part, the second segment further being sized to define where the first segment tapers to a minimal distance from the main part, and ends where the tum up begins to taper out, and where the first segment tapers to the minimal distance and where the second segment's d