JP2010083304A - Pneumatic tire - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pneumatic tire suppressing any heel-and-toe wear even when a projecting part in the tire circumferential direction is provided on an end of a kick side of a block. <P>SOLUTION: A bottom-raised portion 6c with its groove depth being gradually reduced from a groove wall surface 6a on the side opposite to a projecting part 7a of a lug groove 6 to a groove wall surface 6b on the projecting part 7a, is provided on a bottom part of the lug groove 6, the rigidity on the projecting part 7a side in the block 7 is increased to suppress the heel-and-toe wear, which is considerably effective for reducing the noise during the traveling condition. In this case, the bottom-raised portion 6c is formed so that the groove depth on the center side in the width direction of the projecting part 7a is smaller than that on both sides in the width direction, and the block rigidity can be substantially uniform from the center side in the width direction to be worn mostly at the projecting part 7a to both sides in the width direction, and the partial wear resistance can be enhanced. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a pneumatic tire used in, for example, passenger cars, trucks, buses and the like.

Conventionally, as this type of pneumatic tire, a block is generally formed by a main groove extending in the tire circumferential direction and a lug groove extending in the tire width direction, but the kicking side end of the block is a road surface. In order to reduce noise at the time of contact, the block's kick-out side end is provided at the block's kick-out side end by providing a protrusion in which the center side in the width direction of the block protrudes in the tire circumferential direction from both sides in the width direction. Is known that gradually contacts the road surface in the tire width direction (see, for example, Patent Document 1).
JP-A-9-207520

  However, the block has a problem that so-called heel and toe wear (a kind of uneven wear) is likely to occur. Heel-and-toe wear occurs when the block receives repeated shearing force in the tire rotation direction due to the braking force of the tire, and wear increases due to high ground pressure on the kicking side of the block, while ground pressure occurs on the stepping side of the block. The edge portion extends thinly due to wear due to sliding with the road surface, and noise increases due to the hitting sound of the extended portion hitting the road surface. In particular, in the case where the protruding portion as described above is provided on the kicking side of the block, there is a problem that the contact pressure on the kicking side of the block is increased by that amount, and heel and toe wear is increased.

  The present invention has been made in view of the above problems, and the object of the present invention is to provide heel and toe wear even when a protruding portion protruding in the tire circumferential direction is provided at the kicking side end portion of the block. It is providing the pneumatic tire which can be suppressed.

  In order to achieve the above object, the present invention comprises a main groove extending in the tire circumferential direction, a lug groove extending in the tire width direction, and a block defined by the main groove and the lug groove, and the kicking side end of the block In the pneumatic tire in which the central portion in the width direction of the block is provided with a protruding portion that protrudes in the tire circumferential direction from both sides in the width direction, the groove on the protruding portion side from the groove wall surface on the opposite side of the protruding portion to the bottom of the lug groove A bottom-up portion is provided so that the groove depth in the tire radial direction gradually decreases toward the wall surface, and the bottom-up portion is formed so that the groove depth on the center side in the width direction of the protruding portion is shallower than both sides in the width direction. .

  As a result, the bottom portion of the lug groove is provided with a bottom-up portion in which the groove depth gradually decreases from the groove wall surface on the opposite side of the protrusion portion toward the groove wall surface on the protrusion portion side. Stiffness is increased and heel and toe wear is suppressed. In this case, the bottom raised portion is formed so that the groove depth on the center side in the width direction of the protrusion is shallower than both sides in the width direction. A substantially uniform block rigidity is obtained.

  According to the present invention, the rigidity of the protruding portion side of the block can be increased, so that heel and toe wear can be suppressed, which is extremely effective in reducing noise during traveling. In this case, since the block rigidity can be made substantially uniform from the widthwise center side where the protrusions are most likely to be worn to both sides in the widthwise direction, it is possible to improve uneven wear resistance.

  1 to 9 show an embodiment of the present invention. FIG. 1 is a partial front sectional view of a pneumatic tire, FIG. 2 is a partial plan view thereof, FIG. 3 is a partial schematic side view thereof, and FIG. 5 to 7 are side cross-sectional views thereof, FIG. 8 is a cross-sectional view taken along the line XX of FIG. 5, and FIGS. 9 and 10 are diagrams showing test results.

  The pneumatic tire shown in the figure is formed between a tread portion 1 formed on the tire outer peripheral surface side, sidewall portions 2 formed on both sides in the tire width direction, and the tread portion 1 and the sidewall portions 2. A shoulder portion 3 and a bead portion 4 formed on the inner side in the tire radial direction of the sidewall portion 2, and a bead core 4 a is embedded in the bead portion 4.

  The tread portion 1 is provided with a plurality of main grooves 5 extending in the tire circumferential direction, a plurality of lug grooves 6 extending in the tire width direction, and a plurality of blocks 7 defined by the main grooves 5 and the lug grooves 6. At the kicking side end of each block 7, a protruding portion 7 a is provided in which the center side in the width direction of the block 7 protrudes in the tire circumferential direction from both sides in the width direction. The bottom of the lug groove 6 is provided with a bottom raised portion 6c in which the groove depth in the tire radial direction gradually decreases from the groove wall surface 6a on the opposite side of the protrusion 7a toward the groove wall surface 6b on the protrusion 7a side. The portion 6c is formed so that the groove depth on the center side in the width direction of the protruding portion 7a is shallower than both sides in the width direction. In this case, the bottom raised portion 6c is such that the groove depth L1 (A1-A1 'in the figure) of the groove wall surface 6b on the protruding portion 7a side is the opposite side of the protruding portion 7a in the portion A1 where the protruding portion 7a protrudes most in the tire circumferential direction. The groove wall surface 6a is formed so as to be 70% or more and 90% or less of the groove depth L2 (A2-A2 'in the figure). Further, the bottom raised portion 6c has a groove depth L3 of the groove wall surface 6b on the protruding portion 7a side at the midpoint C1 between the portion A1 where the protruding portion 7a protrudes most in the tire circumferential direction and the width direction one end B1 of the block 7 (in the drawing) C1 -C1 ') is formed to be 80% or more and 95% or less of the groove depth L4 (C2 -C2' in the figure) of the groove wall surface 6a on the opposite side of the protrusion 7a, and the protrusion 7a is in the tire circumferential direction. The groove depth L5 (E1-E1 'in the figure) of the groove wall surface 6b on the protruding portion 7a side at the middle point E1 between the most protruding portion A1 and the widthwise other end D1 of the block 7 is opposite to the protruding portion 7a. It is formed to be 80% or more and 95% or less of the groove depth L6 (E2 -E2 'in the drawing) of the groove wall surface 6a.

  In the pneumatic tire configured as described above, the bottom of the lug groove 6 is gradually raised from the groove wall surface 6a on the opposite side of the protruding portion 7a toward the groove wall surface 6b on the protruding portion 7a side. Since the portion 6c is provided, the rigidity of the block 7 on the protruding portion 7a side is increased, and heel and toe wear is suppressed. In this case, the bottom raised portion 6c is formed such that the groove depth on the center side in the width direction of the protrusion 7a is shallower than both sides in the width direction. The block rigidity is almost uniform over both sides in the direction.

  Here, when Examples 1 to 5 of the present invention, the conventional example, and the comparative example were tested for uneven wear resistance, the results shown in FIG. 8 were obtained. In the conventional example, a tire having no raised portion in the lug groove was used, and in the comparative example, a tire having a raised portion having a uniform groove depth in the width direction was used in the lug groove. Further, in Examples 1 to 5, a tire having a raised bottom portion in which the groove depth varies in the width direction in the lug groove is used, and the raised portion in the A1 portion (the protruding portion protrudes most in the tire circumferential direction). The groove depth was 60% in Example 1, 70% in Example 2, 80% in Example 3, 90% in Example 4, and 95% in Example 5. In this test, tires having a tire size of 205 / 60R16 and an air pressure of 230 kPa were mounted on an actual vehicle.

  In this test, after traveling 20000 km on a general road, the difference in wear amount between the kicking side end and the stepping side end of the block was measured and its reciprocal number was indexed. In this case, it was determined that the larger the index value, the more superior. As a result of the test, all of Examples 1 to 5 were excellent in uneven wear resistance as compared with the conventional example and the comparative example, and in particular, the results that Examples 2 to 4 were superior to the other examples were obtained.

  Moreover, when Examples 6 to 9 of the present invention and the conventional example were tested for uneven wear resistance, the results shown in FIG. 9 were obtained. In the conventional example, a tire having no bottom raised portion in the lug groove was used as in the above test. Further, in Examples 6 to 9, as in the above embodiment, tires having lug grooves with bottom raised portions whose groove depths change in the width direction are used, and the A1 portion (the protruding portion protrudes most in the tire circumferential direction). The groove depth of the bottom raised portion in the portion to be different is between 70% and 90%, and the midpoint between the C1 and E1 portions (the portion where the protruding portion protrudes most in the tire circumferential direction and the end portion in the width direction of the block) The groove depth of the bottom raised portion in Example 6 was 75% in Example 6, 80% in Example 7, 90% in Example 8, and 95% in Example 9. In this test, tires having a tire size of 205 / 60R16 and an air pressure of 230 kPa were mounted on an actual vehicle.

  In this test, after traveling 20000 km on a general road, the difference in wear amount between the kicking side end and the stepping side end of the block was measured and its reciprocal number was indexed. In this case, it was determined that an index value of 110 or more is superior. As a result of the test, all of Examples 6 to 9 were superior in uneven wear resistance as compared with the conventional example, and in particular, Examples 7 to 9 were superior to the other examples.

  Thus, according to this embodiment, the bottom raised portion 6c in which the groove depth gradually decreases from the groove wall surface 6a on the opposite side of the protrusion 7a toward the groove wall surface 6b on the protrusion 7a side at the bottom of the lug groove 6. Therefore, the rigidity of the block 7 on the projecting portion 7a side can be increased to suppress heel and toe wear, which is extremely effective in reducing noise during traveling. In this case, the bottom raised portion 6c is formed so that the groove depth on the center side in the width direction of the protrusion 7a is shallower than both sides in the width direction. Accordingly, the block rigidity can be made substantially uniform, and the uneven wear resistance can be improved.

  Further, in the raised portion 6c, the groove depth L1 of the groove wall surface 6b on the protruding portion 7a side in the portion A1 where the protruding portion 7a protrudes most in the tire circumferential direction is the groove depth L2 of the groove wall surface 6a on the opposite side of the protruding portion 7a. 70% or more and 90% or less, the rigidity of the block 7 at the portion A1 where the protruding portion 7a protrudes most is not increased more than necessary by the bottom raised portion 6c, and the effect of suppressing heel and toe wear is sufficient. Can get to.

  Further, the groove depth L3 of the groove wall surface 6b on the protruding portion 7a side at the middle points C1 and E1 of the portion A1 where the protruding portion 7a protrudes most in the tire circumferential direction and the end portion in the width direction of the block 7 is the bottom raised portion 6c. Since it is formed so as to be 80% or more and 95% or less of the groove depth L4 of the groove wall surface 6a on the opposite side of the protruding portion 7a, the portion A1 where the protruding portion 7a protrudes most and the width direction end of the block 7 The rigidity of the block 7 at the points C1 and E1 is not increased more than necessary by the bottom raised portion 6c, and the effect of suppressing heel and toe wear can be sufficiently obtained.

Partial front sectional view of a pneumatic tire showing an embodiment of the present invention Partial plan view of pneumatic tire Partial schematic side view of pneumatic tire Block plan Side sectional view of block Side sectional view of block Side sectional view of block XX sectional view taken along line X-X in FIG. Diagram showing test results Diagram showing test results

Explanation of symbols

  5 ... main groove, 6 ... lug groove, 6a, 6b ... groove wall surface, 6c ... bottom raised part, 7 ... block, 7a ... projecting part.

Claims (3)

A main groove extending in the tire circumferential direction; a lug groove extending in the tire width direction; and a block defined by the main groove and the lug groove. In a pneumatic tire provided with a protruding portion that protrudes more in the tire circumferential direction than
In the bottom of the lug groove, a bottom-up portion is provided in which the groove depth in the tire radial direction gradually decreases from the groove wall surface on the opposite side of the protrusion to the groove wall surface on the protrusion side.
A pneumatic tire characterized in that the bottom raised portion is formed such that the groove depth on the center side in the width direction of the protruding portion is shallower than both sides in the width direction. In the raised portion, the groove depth of the groove wall surface on the protruding portion side in the portion where the protruding portion protrudes most in the tire circumferential direction is 70% or more and 90% or less of the groove depth of the groove wall surface on the opposite side of the protruding portion. The pneumatic tire according to claim 1, wherein the pneumatic tire is formed as follows. The groove depth of the groove wall surface on the protruding portion side at the midpoint between the portion where the protruding portion protrudes most in the tire circumferential direction and the end portion in the width direction of the block is the groove depth of the groove wall surface on the opposite side of the protruding portion. The pneumatic tire according to claim 1 or 2, wherein the pneumatic tire is formed to be 80% or more and 95% or less.

Images