Pneumatic Vehicle Tire with Run-Flat Properties

Abstract

A pneumatic vehicle tire with run-flat properties, having a tread (1), having a multi-ply belt assembly (2), having an inner ply (4) which is of air-tight form, having a carcass (3) which, in the bead region (5), is led from axially inside axially outward as a carcass turn-up (3a) around tension-resistant cores (6), and having side walls (8) within which there is arranged at least one reinforcement profile (9) which is of sickle-shaped cross section and which is of closed ring-shaped form around the circumference of the side wall, wherein the inner ply (4) does not run continuously through the tire cross section from bead region (5) to bead region (5), it rather being the case that, within the cross-sectional height (10) of the reinforcement profile (9), the inner ply is omitted; the inner ply (4a) is, in a region situated opposite the tread (1), arranged between the two upper ends (11) of the reinforcement profiles (9), and the inner ply (4a) does not cover said two ends (11) of the reinforcement profiles (9) axially at the inside.

Claims

1.-6. (canceled)

7. A pneumatic vehicle tire having run-flat properties, the pneumatic vehicle tire comprising: a tread; a multi-ply breaker belt assembly; an inner layer of an airtight form; a carcass comprising a bead region, which in the bead region the carcass is led from axially the inside axially outward around tension-resistant cores as a carcass turn-up; and, sidewalls, within which there is arranged at least one reinforcing profile which is of a sickle-shaped cross section and is of a continuous ring-shaped form over the circumference of the sidewall; wherein the inner layer is omitted within a cross-sectional height of the at least one reinforcing profile; and, wherein the inner layer in a region lying opposite the tread is arranged between upper ends of the at least one reinforcing profiles, and wherein the inner layer does not cover the upper ends of the at least one reinforcing profiles axially on the inside of the at least one reinforcing profiles.

8. The pneumatic vehicle tire as claimed in claim 1, wherein the inner layer is arranged between the two ends of the at least one reinforcing profiles, and wherein the inner layer ends in abutment with the two ends of the at least one reinforcing profiles.

9. The pneumatic vehicle tire as claimed in claim 1, wherein the inner layer is arranged between the two upper ends of the at least one reinforcing profiles, wherein the inner layer is led axially outward along the upper ends of the at least one reinforcing profiles, and wherein the inner layer has a contour-parallel covering of the upper ends of between 5 mm and 15 mm.

10. The pneumatic vehicle tire as claimed in claim 1, wherein the carcass is of a single-ply form and wherein the at least one reinforcing profile is arranged axially on the inside with respect to the carcass.

11. The pneumatic vehicle tire as claimed in claim 1, wherein in the bead region a further inner-layer strip that runs around the circumference of the tire in a circular ring-shaped manner is arranged at the height of a bead filler, wherein the inner-layer strip is led axially outward along a lower end of the at least one reinforcing profiles, and wherein the inner-layer strip has a contour-parallel covering of the lower end of between 5 mm and 15 mm.

12. The pneumatic vehicle tire as claimed in claim 11 further comprising a rubber strip comprising a rubber compound devoid of any butyl rubber compounds, wherein the rubber strip is arranged between the inner layer and the inner-layer strip.

13. The pneumatic vehicle tire as claimed in claim 1, wherein in the bead region a further inner-layer strip that runs around the circumference of the tire in a circular ring-shaped manner is arranged at the height of a bead filler, and wherein the inner-layer strip is led axially inward along a lower end of the at least one reinforcing profiles, and wherein the inner-layer strip has a contour-parallel covering of the lower end of between 5 mm and 15 mm.

14. The pneumatic vehicle tire as claimed in claim 13 further comprising a rubber strip comprising a rubber compound devoid of any butyl rubber compounds, wherein the rubber strip is arranged between the inner layer and the inner-layer strip.

Description

[0015] Further features, advantages and details of the invention are explained in greater detail with reference to the single drawing, which schematically illustrates a schematic exemplary embodiment.

[0016] FIG. 1 shows a half cross section through a pneumatic radial tire for passenger cars with run-flat properties as a result of reinforced sidewalls. The main constituent parts of which the illustrated radial tire is made up are: a tread 1, a breaker belt 2 consisting in the embodiment shown of two plies 2a, 2b, a carcass 3 of a single-ply form, a multi-part inner layer 4a, 4b of an airtight form, beads 5 with bead cores 6 and bead fillers 7, and also sidewalls 8 and approximately sickle-shaped reinforcing profiles 9, produced from elastomeric material, in particular from a rubber compound. The reinforcing profiles are arranged axially on the inside with respect to the carcass 3. The two plies 2a, 2b of the breaker belt 2 consist of reinforcing elements of steel cord that are embedded in a rubber compound and run parallel to one another within each ply, the steel cords of the one ply 2a being oriented in a crossing arrangement in relation to the steel cords of the second ply 2b and respectively forming an angle of between 20° and 38° with the circumferential direction of the tire. The carcass 3 may also be formed in a conventional and known way, and consequently have reinforcing yarns of a textile material that are embedded in a rubber compound and run in the radial direction. The carcass 3 is led around the bead cores 6 from axially the inside axially outward; its turn-ups 3a run alongside the bead fillers 7 in the direction of the breaker belt 2. The thickness of the reinforcing profile 9 decreases both in the direction of the breaker belt 2 and in the direction of the bead 5. In the direction of the breaker belt 2, the reinforcing profile 9 reaches to below the peripheral regions of the same. In the direction of the bead 5, the reinforcing profile 9 ends at a height that lies in a region from the bead filler 7 to the bead core 6. Over most of the length of the sidewall, the reinforcing profile 9 is formed as virtually constantly thick; its thickness is 4 to 15 mm.

[0017] In this partial cross section of a symmetrically constructed pneumatic radial tire, the inner layer 4, consisting of BR rubber, does not run right through the tire interior from bead region 5 to bead region 5, but it is rather the case that the inner layer 4 is omitted within the cross-sectional height 10 of the reinforcing profile. The inner layer 4 consists of two inner layers 4a, 4b not touching one another.

[0018] The inner layer 4a in a region lying opposite the tread 1 is arranged between the two upper ends 11 of the reinforcing profiles 9, the inner layer 4a not covering these two ends 11 of the reinforcing profiles 9 axially on the inside, but it rather being the case that the inner layer 4a is led axially outward along the upper ends 11. Consequently, the edge of the inner layer 4a is not exposed, but is arranged between the reinforcing profile 9 and the carcass 3 secured against becoming detached by clamping. The covering 13 of the reinforcing profile 9 by the inner layer 4a takes place contour-parallel over a length of between 5 mm and 15 mm.

[0019] In the bead region 5, a further inner-layer strip 4b that runs around the circumference of the tire in a circular ring-shaped manner is arranged at the height of the bead filler 7. The lower end 12 of the reinforcing profile 9 is covered axially on the outside by the inner layer 4b and is arranged clamped securely against becoming detached between the reinforcing profile and the carcass. The covering 14 of these ends 12 takes place contour-parallel over a length of between 5 mm and 15 mm.

LIST OF REFERENCE SIGNS

Part of the Description

[0020] 1 Tread [0021] 2 Breaker belt [0022] 2a,b Belt ply [0023] 3 Carcass [0024] 3a Carcass turn-up [0025] 4a Inner layer [0026] 4b Inner-layer strip [0027] 5 Bead region [0028] 6 Bead core [0029] 7 Bead filler [0030] 8 Sidewall [0031] 9 Reinforcing profile [0032] 10 Cross-sectional height of the reinforcing profile [0033] 11 Upper end of the reinforcing profile [0034] 12 Lower end of the reinforcing profile [0035] 13 Covering [0036] 14 Covering [0037] aR Axial direction [0038] rR Radial direction