RU2000124075A - PNEUMATIC TIRE COMB FITTINGS - Google Patents

Claims (1)

1. A pneumatic tire with a shape factor of less than 0.80, comprising a radial carcass reinforcement formed by at least one layer (1) of metal inextensible reinforcing elements, over which a working ridge reinforcement (3) is formed in the radial direction, formed by at least two working layers (31, 32) of the ridge, continuous in the axial direction and formed of metal inextensible reinforcing elements parallel to each other in each layer and intersecting from one layer to another, forming with approx een outdoor direction angles α and α ', the value of which is in the range 10-45 ^o, characterized in that the two working plies (31) and (32) have axial widths L31 and L32, whose value is in the range of from 0,65 So - 0.80 So and 0.35 So - 0.45, respectively, whereby So represents the maximum axial width of the midline of the carcass reinforcement (1), and the working reinforcement of the ridge (3) is supplemented by at least two half-layers (33) formed by metal inextensible reinforcing elements forming an angle β with a circumferential direction, the value of which is less than the smallest of the angles α and α ′ by at least 2 ^o and having a direction opposite to the direction of the angle α of the orientation of the reinforcing elements of the widest and axially continuous layer (31), with the half-layers (33) located on one and the other sides of the equatorial plane XX 'and have an axial width L33, the value of which is in the range 0.22 So - 0.35 So and is such that the axially inner ends are separated from the equatorial plane XX' by a distance equal to half the width of the least wide working layer (32) mind shennoy by an amount at least equal to 0,05 So. 2. A pneumatic tire according to claim 1, characterized in that both axially continuous layers (31) and (32) formed of reinforcing elements oriented at angles α and α ′ are in the radial direction closest to the carcass reinforcement ( 1), the least wide layer (32) being the closest to the radially outermost layer of the carcass reinforcement (1) and this least wide layer (32) contains reinforcing elements oriented at an angle α ′.
3. A pneumatic tire according to one of claims 1 or 2, characterized in that the working reinforcement (3) is supplemented radially outside from the first two half-layers (33) with two half-layers (34) formed of metal inextensible reinforcing elements parallel to each other in each half-layer (34) and intersecting with the reinforcing elements of the two lower half-layers (33) in the radial direction, forming with the circumferential direction an angle γ exceeding the largest of the angles α and α ′ of the axially continuous layers (31, 32) and exceeding the angle β by the reinforcing elements of the first two half-layers (33) at least 10 ^o .  4. The pneumatic tire according to claim 3, characterized in that the axially inner ends of the two half-layers (34) of the reinforcing elements oriented at an angle γ are separated from the equatorial plane XX 'by a distance equal to half the width L31 of the widest and continuous axial the direction of the working layer (31), reduced by an amount of at least 0.05 So.  5. A pneumatic tire according to claim 4, characterized in that the axially outer ends of the half-layers (34) of the reinforcing elements oriented at an angle γ are separated from the equatorial plane by a distance not exceeding the distance separating the axially outer ends from the said plane half-layers (33) of reinforcing elements oriented at an angle β.