Patent ID: 8950456
Filing Date: 2015-02-10
Classification: B60B,B60C,Y10T

Abstract:
1. An assembly formed of a radial carcass reinforcement tire comprising radially directed reinforcing elements and a mounting rim, wherein the radial carcass reinforcement tire comprises beads intended to come into contact with the mounting rim, wherein the mounting rim comprises a seat extended axially on the outside by a part forming a rim flange the radially outermost part of which is at a distance Rr from the axis of rotation and which has a circular shape in a plane of section containing the axis of rotation, wherein each bead comprises an anchoring bead wire comprising a core, wherein the tire is reinforced by the carcass reinforcement formed of a ply of the radially directed reinforcing elements, which carcass reinforcement in each bead is turned back around the anchoring bead wire to form a an axially outer turned-back portion which, in a radial plane of section, has one radially outermost end positioned, once the tire has been mounted on its mounting rim, at a radial distance Hc from the radially innermost point K of the bead wire which is at least equal to 18 mm and at most equal to 26 mm, wherein each bead comprises, axially on the outside of the turned-back portion of carcass reinforcement, a thickness of material defining a bead external profiled element, wherein the bead external profiled element is such that the distance A measured between the carcass reinforcement and the bead external profiled element in its part that can be in contact with the rim flange is such that wherein B is the distance separating the carcass reinforcement from the end of the turned-back portion of carcass reinforcement, these distances A and B being measured on a straight line perpendicular to the carcass reinforcement and passing through the radially outermost end of the turned-back portion, wherein each bead comprises, positioned between the carcass reinforcement and the turned-back portion, a first and a second profiled element, wherein the first profiled element extends from the bead wire out to a maximum radial distance Hi and is in contact with the turned-back portion out to a radial distance He, these distances Hi and He being measured, in a meridian plane of section, with respect to the radially innermost point of the bead wire, wherein the first profiled element being made of a material having a secant extension modulus at 10% elongation that is greater than 20 MPa, and wherein the second profiled element is arranged in the bead in such a way as to be in contact with one face of the first profiled element and with the turned-back portion of carcass reinforcement out from a radial distance He, the second profiled element extending out to a maximum radial distance H2 also measured with respect to the radially innermost point of the bead wire, this second profiled element being made of a material having a secant extension modulus at 10% elongation that is at least equal to 7 MPa and a secant extension modulus at 100% elongation that is at least equal to 4.5 MPa, and wherein the second profiled element forms the distance B such that the first profiled element does not contact the straight line on which the distance B is measured, the distance B being equal to between 1 mm and the axial width of the bead wire, and wherein the radial distance He of the first profiled element in contact with the turned-back portion of carcass is such that the coupling length L2, measured between the radially outermost point in contact with the turned-back portion and the axially outermost point Ae of the contact with the bead wire is at most equal to half the length Lr of the turned-back portion, the length Lr being measured as the length of turned-back portion in contact with the first and second profiled elements, i.e. the contact length measured from the end of the turned-back portion to the axially outermost point of contact Ae of the bead wire.