IPIQ

B60C2011/129

TIRE

20230083870 · 2023-03-16 ·

Sumitomo Rubber Industries, Ltd.

Provided is a 5-rib tire that can have improved steering stability and noise performance A tread portion 2 includes four circumferential grooves 3 and five land portions 4. Two tread ends are ends of a 50%-load ground-contact surface. Each of the five land portions 4 is provided with no groove having a groove width greater than 2.0 mm, and is provided with only sipes 9. The five land portions 4 include a shoulder land portion 11. The shoulder land portion 11 is provided with a plurality of shoulder sipes 20. At least one of the shoulder sipes 20 includes an inclined portion 21 and an axial portion 22. The axial portion 22 cross the tread end.

TIRE COMPRISING A TREAD OPTIMIZED FOR GRIP ON SNOW-COVERED GROUND

20230123824 · 2023-04-20 ·

BERTRAND BOISDON

A tire has a tread comprising at least two tread pattern elements (MA, MB) distributed periodically in the circumferential direction at pitches (PA, PB). Each tread pattern element is formed of three portions (Z1, Z2, Z3), each defining a volumetric element of which the leading edge corner is the one common to the tread surface and is the first to enter the contact patch in which the tire is in contact with the ground. With each leading edge corner being chamfered, in the portions Z1 and/or Z2, and/or Z3, the widths of the chamfers of the leading edge corners (LC.sub.i.sup.A, LC.sub.i.sup.B, i ranging from 1 to 3) satisfy the following inequalities: a) for the portion Z1:

[00001] $[[]] 0.8 * \frac{P A}{P B} \leq \frac{L C_{1}^{A}}{L C_{1}^{B}} \leq \frac{P A}{P B} * 1.2;$

b) for the portion Z2:

[00002] $[[]] 0.8 * \frac{P A}{P B} \leq \frac{L C_{2}^{A}}{L C_{2}^{B}} \leq \frac{P A}{P B} * 1.2;$

and c) for the portion Z3:

[00003] $[[]] 0.8 * \frac{P A}{P B} \leq L C_{3Tire with improved snow performance without sacrificing dry braking or wear 11623478 · 2023-04-11 · COMPAGNIE GENERALE DES ETABLISSMENTS MICHELIN · Patrick Jon Buresh, Jason Schoenmaker, Robert Dillon, Phillip William Check, William Marshall Thompson Embodiments of the disclosure include pneumatic tires having improved snow performance. Said tires include a cap ply extending at least partially across a full width of at least one of the belt plies and having a rupture force greater than 210 N per 15 mm of cap ply width. A shoulder rib includes a compliance groove or sipe extending primarily in a circumferential direction and to a depth equal to or less than 75% of the skid depth. The lateral sipes and grooves are arranged to provide an average lateral feature spacing of less than 15 mm. The average inclination angle for the lateral grooves is greater than 6 degrees in the shoulder ribs and is greater than 20 degrees in the central ribs. A longitudinal non-lateral sipe edge density is greater than 21.1 micrometers/mm.sup.2. A longitudinal lateral sipe edge density for all lateral sipes is greater than 5.5 micrometers/mm.sup.2.TIRE 20170368883 · 2017-12-28 · Sumitomo Rubber Industries, Ltd. · Yuki KIGAMI A tire comprises a tread portion 2 having an outboard tread edge To and an inboard tread edge Ti and provided with an outboard shoulder main groove 3 and an outboard crown main groove 4 extending continuously in the tire circumferential direction so as to define an outboard middle land region 10 therebetween. The outboard middle land region 10 comprises outboard middle blocks 17 circumferentially divided by outboard middle lateral grooves 16. Each of the outboard middle blocks 17 is provided with outboard middle sipes 20 extending zigzag in the tire axial direction, wherein each of the outboard middle sipes 20 has an axially outer end terminated within the outboard middle block 17, and the above-said a plurality of outboard middle sipes 20 include at least one outboard middle sipe whose axially inner end is connected with the outboard crown main groove 4.TIRE HAVING A TREAD OPTIMIZED IN TERMS OF GRIP ON DRY GROUND 20230191847 · 2023-06-22 · BERTRAND BOISDON, JEROME LABROUSSE, MARIE-HELENE VANTAL A tire has a tread comprising at least two tread pattern elements (MA, MB) distributed periodically in the circumferential direction at pitches (PA, PB). Each tread pattern element is formed of three portions (Z 1, Z 2, Z 3), each defining a volumetric element of which the trailing edge corner is the one common to the tread surface and is the last to leave the contact patch in which the tire is in contact with the ground. With each trailing edge corner being chamfered, in the portions Z 1 and/or Z 2, and/or Z 3, the widths of the chamfers of the trailing edge corners (LC.sub.i.sup.A, LC.sub.i.sup.B, i ranging from 1 to 3) ef satisfy the following inequalities: a) [00001] 0.8 * \frac{P A}{P B} \leq \frac{L C_{1}^{A}}{L C_{1}^{B}} \leq \frac{P A}{P B} * 1.2 for the portion Z 1, b) [00002] 0.8 * \frac{P A}{P B} \leq \frac{L C_{2}^{A}}{L C_{2}^{B}} \leq \frac{P A}{P B} * 1.2 for the portion Z 2, and c) [00003] 0.8 * \frac{P A}{P B} \leq \frac{L C_{3}^{A}}{L C_{3}^{B}} \leqTIRE 20230173850 · 2023-06-08 · BRIDGESTONE CORPORATION · Yoshiki NAKATA, Mayuko KARASAWA A tire includes a first circumferential main groove 11 and a second circumferential main groove 12 in a tread surface 1 . A resonator 21 is formed in an intermediate land portion 20 partitioned between the first circumferential main groove and the second circumferential main groove. The resonator has an auxiliary groove 211 whose both ends terminate within the intermediate land portion. The groove depths D1 of the first and second circumferential main grooves are 50% or less of the groove widths W2 of the first and second circumferential main grooves, respectively. The groove depth D3 of the auxiliary groove of the resonator is 70% or more of the groove depth D1 of the first circumferential main groove.TIRE 20220055412 · 2022-02-24 · Bridgestone Corporation · Shoichi TANAKA, Hiroyuki KATSUNO A tire having high on-ice starting performance, the tire is provided with a plurality of circumferential direction grooves formed on a tread of the tire and extending in a tire circumferential direction, a plurality of width direction grooves extending in a direction intersecting the tire circumferential direction, a plurality of blocks demarcated by the circumferential direction grooves and the width direction grooves, and a plurality of width direction sipes formed on surfaces of the blocks and extending in the direction intersecting the tire circumferential direction, in which a distance P between the sipes 18 z is set in a range of 4-12 mm.PNEUMATIC TIRE 20220048331 · 2022-02-17 · Kotaro MATSUSHITA A pneumatic tire tread pattern includes, on a first side in a width direction relative to a tire centerline, first lug grooves in a shoulder land portion extending from an outer side in the width direction toward and connecting with a shoulder side main groove; and second lug grooves in a middle land portion between the shoulder side main groove and a center side main groove, the second lug grooves extending from a portion of the shoulder side main groove between connection positions of circumferentially adjacent first lug grooves with the shoulder side main groove, toward the center side main groove, and being closed within the middle land portion. The first lug grooves are inclined, at the connection position, to one side in the circumferential direction relative to the width direction. The second lug grooves are inclined to be parallel with an inclination direction of the first lug groove.Pneumatic tire 11241918 · 2022-02-08 · The Yokohama Rubber Co., Ltd. · Naoko Suzuki A pneumatic tire comprises an inner circumferential groove and an outer circumferential groove in a tread portion and extending in a tire circumferential direction. A land portion between circumferential grooves is defined by the inner and outer circumferential grooves. The pneumatic tire includes first and second auxiliary grooves disposed in the tire circumferential direction that communicate with the inner and outer circumferential grooves, respectively, and terminate within the land portion between circumferential grooves. The first auxiliary grooves and the second auxiliary grooves have a non-intersecting, alternating arrangement. At least one narrow groove is disposed between adjacent first auxiliary grooves. At least two narrow grooves are disposed between adjacent second auxiliary grooves. The at least two narrow grooves between second auxiliary grooves are disposed in a greater number than the number of the at least one narrow groove between first auxiliary grooves.Pneumatic tire 11241917 · 2022-02-08 · The Yokohama Rubber Co., Ltd. · Naruhiko Honda A pneumatic tire, includes: an annular-shape tread portion; a sidewall portions; and bead portions. JIS hardness of tread rubber is within a range of 40 to 60 and snow traction index is 180 or higher. A rib positioned between circumferential grooves is demarcated in a center region of the tread portion. Closed grooves are formed in the rib. The closed grooves are inclined with regard to a tire axial direction such that a closed end faces a leading side. A groove wall of the closed groove on the leading side protrudes more outward in the tire axial direction than a groove wall on a trailing side. A difference between angles θ 1 and θ 2 of the groove walls on the leading and trailing sides of the closed grooves, respectively, with regard to the tire axial direction is within a range of 0°≤θ 1 -θ 2 ≤5°.< 123 >}$

Patent classifications

B60C2011/129