JP3493190B2 - Heavy duty pneumatic tires - Google Patents
Heavy duty pneumatic tiresInfo
- Publication number
- JP3493190B2 JP3493190B2 JP2001317058A JP2001317058A JP3493190B2 JP 3493190 B2 JP3493190 B2 JP 3493190B2 JP 2001317058 A JP2001317058 A JP 2001317058A JP 2001317058 A JP2001317058 A JP 2001317058A JP 3493190 B2 JP3493190 B2 JP 3493190B2
- Authority
- JP
- Japan
- Prior art keywords
- connecting portion
- groove
- width
- tire
- shaped
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60C—VEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
- B60C11/00—Tyre tread bands; Tread patterns; Anti-skid inserts
- B60C11/03—Tread patterns
- B60C11/12—Tread patterns characterised by the use of narrow slits or incisions, e.g. sipes
- B60C11/1259—Depth of the sipe
- B60C11/1263—Depth of the sipe different within the same sipe
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Tires In General (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は、雪上、氷上性能を
ともに向上させ、かつ耐偏摩耗性能に優れることによ
り、スタッドレス空気入りタイヤとして好適に採用しう
る重荷重用空気入りタイヤに関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heavy duty pneumatic tire that can be suitably used as a studless pneumatic tire by improving both snow and ice performance and excellent uneven wear resistance.
【0002】[0002]
【従来の技術】冬用タイヤ、スノータイヤ、スタッドレ
スタイヤ等にあっては、トレッド面を、縦溝及び横溝に
より区画したブロックからなるブロックパターンに形成
し、その溝内に噛込まれかつ踏み固められた雪柱の剪断
力、即ち雪柱に作用させうる剪断反力によって雪上での
走行性能を高めている。2. Description of the Related Art In winter tires, snow tires, studless tires, etc., the tread surface is formed into a block pattern consisting of blocks divided by vertical grooves and lateral grooves, and the tread surface is bitten and treaded in the grooves. The running force on the snow is enhanced by the shear force of the snow column thus generated, that is, the shear reaction force acting on the snow column.
【0003】他方、氷上性能については、主として、ト
レッド部を軟らかいゴム材で形成することによる氷路面
との粘着摩擦力の向上と、ブロックに形成するサイピン
グとによって高めうる。On the other hand, the performance on ice can be improved mainly by improving the adhesive frictional force with the ice road surface by forming the tread portion with a soft rubber material and siping formed on the block.
【0004】これは、一般に0℃から−15℃付近の氷
路面上では、タイヤの接地圧により氷面上の氷が溶ける
ことによる水膜が、タイヤトレッド面と氷面との間に介
在してその水がタイヤを滑らせるが、トレッド面に施さ
れた前記サイピングは、接地面内で開閉することによ
り、その水をサイピング内に吸収して水膜を破るととも
に、サイピングのエッジが氷路面をひっかき、路面摩擦
係数を向上するエッジ効果によって氷面上のグリップを
向上させる。また、氷上での耐横滑り性能について、例
えば特開平7−205617号公報は、タイヤ周方向に
のびるサイピングを用いることを提案している。[0004] Generally, on an ice road surface near 0 ° C to -15 ° C, a water film due to melting of ice on the ice surface due to the ground contact pressure of the tire is present between the tire tread surface and the ice surface. The water slides on the tire, but the siping applied to the tread surface absorbs the water in the siping and breaks the water film by opening and closing in the ground contact surface, and the edge of the siping is on the ice road surface. Scratch and improve the grip on the ice surface by the edge effect which improves the road surface friction coefficient. Regarding skid resistance on ice, for example, Japanese Patent Laid-Open No. 7-205617 proposes to use siping extending in the tire circumferential direction.
【0005】一方、一般に、サイピングはその溝容積が
少なく、サイピングの壁面が通常、又は接地時において
接触するため、サイピングのエッジ部の動きが少なく、
タイヤの摩耗寿命、耐偏摩耗性能に及ぼす悪影響は少な
いと言われている。On the other hand, in general, since the groove volume of the siping is small and the wall surface of the siping is in contact with each other at normal times or at the time of grounding, the movement of the edge portion of the siping is small,
It is said that there is little adverse effect on the wear life and uneven wear resistance of tires.
【0006】しかしながら、高荷重で使用される重荷重
用空気入りタイヤにあっては、トレッド接地面に加わる
高い荷重、及びそれに伴うブロックの激しい動きによ
り、サイピングの数を多くし、深さを増大させること
は、氷上走行性能を高める反面、偏摩耗、トレッドの一
部が欠けるクラックの発生原因となる。However, in a heavy duty pneumatic tire used under high load, the number of sipes is increased and the depth is increased due to the high load applied to the tread contact surface and the accompanying violent movement of the block. That is, while improving the running performance on ice, it causes uneven wear and cracks in which a part of the tread is chipped.
【0007】[0007]
【発明が解決しようとする課題】重荷重用空気入りタイ
ヤにおいて、これらの損傷を防止するためには、初期で
のサイピングの深さ、又は長さを減じることも考えられ
るが、そのとき摩耗中期から後期のサイピングの効果が
なくなり、また、ブロックの動きが抑制されるため、氷
上の横滑り性能も低下する。また各ブロックを小さく、
そして数を多くすることにより、雪上性能及び氷上性能
の向上を図ることもできるが、同時に偏摩耗やブロック
欠けを生じやすくなる。In a heavy duty pneumatic tire, in order to prevent these damages, it is conceivable to reduce the depth or length of siping in the initial stage. The effect of siping in the latter half is lost, and the movement of the block is suppressed, so that the skid performance on ice also deteriorates. Also, make each block small,
By increasing the number, it is possible to improve the performance on snow and the performance on ice, but at the same time, uneven wear and block chipping are likely to occur.
【0008】本発明は、偏摩耗、クラックの発生を抑制
しつつ、氷上のグリップ性能を高め氷雪走行性能を向上
しうる重荷重用空気入りタイヤの提供を目的としてい
る。An object of the present invention is to provide a heavy duty pneumatic tire capable of enhancing grip performance on ice and improving snow and ice running performance while suppressing uneven wear and cracking.
【0009】[0009]
【課題を解決するための手段】本発明のうち請求項1に
係る発明は、トレッド面を、周方向に連続してのびる複
数の縦溝Gと、この縦溝間を横切る複数の横溝gとによ
り区分されるブロックBが周方向に隔設される複数列の
ブロック列BRを有し、前記ブロック列BRには、ブロ
ックBに、V字の突端aがタイヤ周方向に向き、かつ巾
方向に連続して両端が前記縦溝Gに開口するV字状サイ
ピングSaを有するV字サイプブロックBaが周方向に
並ぶV字サイプブロック列BRaを含み、かつタイヤ軸
方向に隣り合うV字サイプブロック列BRaにおいて該
V字の突端aの周方向の向きを異ならせるとともに、周
方向に隣り合う前記V字サイプブロックBa間には、上
面がトレッド面よりも沈みしかも少なくとも一方のタイ
ヤ軸方向端部が面する縦溝Gの溝底面よりも高い上面を
有する連結部Cを設けることにより前記V字サイプブロ
ックBa、Ba間を継ぐとともに、前記連結部Cは、前
記横溝gの溝巾が異なることにより周方向長さLCが異
なり、かつタイヤ軸方向の巾WCも異なる複数種類の連
結部Cを含むことを特徴とする。According to a first aspect of the present invention, a plurality of vertical grooves G extending continuously in the circumferential direction on a tread surface, and a plurality of horizontal grooves g crossing between the vertical grooves are provided. The block B divided by is provided with a plurality of block rows BR which are spaced apart in the circumferential direction. The block row BR has a V-shaped projection a on the block B in the tire circumferential direction and in the width direction. V-sipe blocks Ba having V-shaped sipe blocks Ba having V-shaped sipe Sa that are open to the vertical groove G at both ends continuously and that are adjacent to each other in the tire axial direction. In the row BRa, the circumferential direction of the V-shaped projecting end a is different, and the upper surface is sunk below the tread surface between the V-shaped sipe blocks Ba adjacent in the circumferential direction, and at least one end portion in the tire axial direction. Face By providing a connecting portion C having an upper surface that is higher than the groove bottom surface of the vertical groove G, the V-sipe blocks Ba, Ba are joined together, and the connecting portion C has a peripheral groove formed by the lateral groove g having a different groove width. It is characterized in that it includes a plurality of types of connecting portions C having different directional lengths LC and different widths WC in the tire axial direction.
【0010】請求項2に係る発明は、連結部Cが、周方
向長さLCがS周方向長さLC1の第1の連結部C1
と、前記周方向長さLC1よりも長い周方向長さLC2
の第2の連結部C2とを含み、かつ第2の連結部C2の
巾WC2は、第1の連結部C2の巾WC1よりも大とす
るとともに、前記V字サイプブロックBaの周方向長さ
LB、巾WBよりはいずれも小であることを特徴として
いる。In the invention according to claim 2, the connecting portion C is the first connecting portion C1 whose circumferential length LC is S circumferential length LC1.
And a circumferential length LC2 longer than the circumferential length LC1.
Second connecting portion C2, and the width WC2 of the second connecting portion C2 is larger than the width WC1 of the first connecting portion C2, and the length of the V-shaped sipe block Ba in the circumferential direction. Both are smaller than LB and width WB.
【0011】請求項3に係る発明は、前記連結部Cが、
周方向長さLCが周方向長さLC1の第1の連結部C1
と、前記周方向長さLC1よりも長い周方向長さLC2
の第2の連結部C2との2種類からなり、かつタイヤ周
方向に交互に配しており、かつ請求項4に係る発明は、
縦溝Gが、溝巾が4.0mmより大かつ20.0mm以下の
主縦溝Gmと、2.0mm以上かつ4.0mm以下の溝巾の
副縦溝Gsとからなり、かつ前記連結部Cの前記主縦溝
Gmの溝底からの高さHCと、前記主縦溝Gmの深さH
Gmとの比HC/HGmを、0.50以上かつ0.78
以下としたことを特徴とする。In the invention according to claim 3, the connecting portion C is
The first connecting portion C1 whose circumferential length LC is the circumferential length LC1
And a circumferential length LC2 longer than the circumferential length LC1.
And the second connecting portion C2, which are arranged in the tire circumferential direction and are alternately arranged.
The vertical groove G includes a main vertical groove Gm having a groove width of more than 4.0 mm and 20.0 mm or less and a sub vertical groove Gs having a groove width of 2.0 mm or more and 4.0 mm or less, and the connecting portion. Height C of the main vertical groove Gm from the groove bottom of the main vertical groove Gm and depth H of the main vertical groove Gm.
Ratio HC / HGm with Gm is 0.50 or more and 0.78
It is characterized by the following.
【0012】また請求項5に係る発明は、V字サイプブ
ロックBaの周方向長さLBに対する第1の連結部C1
の周方向長さLC1の比LC1/LBを0.08〜0.
20、第2連結部C2の周方向長さLC2の比LC2/
LBを0.35〜0.45としたことを特徴とし、かつ
請求項6の発明は連結部Cの巾WCを、V字サイプブロ
ックBaの巾WBの0.60〜0.70の範囲としてい
る。Further, in the invention according to claim 5, the first connecting portion C1 to the circumferential length LB of the V-shaped sipe block Ba is provided.
The ratio LC1 / LB of the circumferential length LC1 of 0.08 to 0.
20, the ratio LC2 / of the circumferential length LC2 of the second connecting portion C2
LB is set to 0.35 to 0.45, and the invention of claim 6 sets the width WC of the connecting portion C to the range of 0.60 to 0.70 of the width WB of the V-shaped sipe block Ba. There is.
【0013】さらに、請求項7に係る発明は、V字サイ
プブロックBaが、タイヤ周方向の一方端面が前記V字
状サイピングSaの形状に合わせたV字壁面を具えると
ともに、その突端aから周方向に延びかつV字状サイピ
ングSaに交わりことなく途切れる周方向サイピングS
cを有することを特徴とし、請求項8の発明は、前記副
縦溝Gsが、その溝底が、前記連結部よりも半径方向上
方にあること、請求項9の発明は、その溝底が、前記連
結部よりも半径方向下方にあることを特徴とする。Further, in the invention according to claim 7, the V-shaped sipe block Ba has a V-shaped wall surface whose one end face in the tire circumferential direction matches the shape of the V-shaped siping Sa, and from the projecting end a thereof. A circumferential siping S that extends in the circumferential direction and is interrupted without intersecting with the V-shaped siping Sa
The invention according to claim 8 is characterized in that the groove bottom of the sub-vertical groove Gs is located above the connecting portion in the radial direction, and the invention of claim 9 has a groove bottom. , Located radially below the connecting portion.
【0014】[0014]
【発明の実施の形態】以下本発明の実施の一形態を図面
に基づき説明する。図1は、重荷重用空気入りタイヤ1
(以下タイヤ1という)が、例えば、タイヤサイズが1
1R22.5の冬用タイヤであり、正規リムRに組み込
まれ正規内圧を充填した状態した標準状態でのタイヤ子
午線断面における赤道面EPの右半分を示している。BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows a pneumatic tire 1 for heavy loads.
(Hereinafter referred to as tire 1), for example, the tire size is 1
1R22.5 winter tire, showing the right half of the equatorial plane EP in the tire meridian section in the standard state in which the tire is incorporated in the regular rim R and filled with the regular internal pressure.
【0015】本明細書において、「正規リム」とは、J
ATMAで規定する標準リム、TRAで規定する ”D
esign Rim” 、或いはETRTOで規定する
”Measuring Rim” のいずれかに従っ
て定め、また「正規内圧」とは、JATMAで規定する
最高空気圧、TRAの表 ”TIRE LOADLIM
ITS AT VARIOUS COLD INFLA
TIONPRESSURES” に記載の最大値、或い
はETRTOで規定する”INFLATION PRE
SSURE” のいずれかに従って定められる。In the present specification, the "regular rim" means J
Standard rim specified by ATMA, "D" specified by TRA
Design Rim "or" Measuring Rim "specified by ETRTO, and" regular internal pressure "means the maximum air pressure specified by JATMA, the table" TIRE LOADLIM "of TRA.
ITS AT VARIOUS COLD INFLA
Maximum value described in “TIONPRESSURES” or “INFLATION PRE specified by ETRTO
SSURE ".
【0016】タイヤ1は、ビードコア2が通る両側のビ
ード部3と、各ビード部3からタイヤ半径方向外向きに
のびるサイドウォール部4と、その上端間を継ぐトレッ
ド部5とを具え、前記ビード部3、3間にカーカス6が
架け渡されるとともに、このカーカス6のタイヤ半径方
向外側かつトレッド部5の内方にはベルト層7が周方向
に巻装される。The tire 1 includes bead portions 3 on both sides through which the bead core 2 passes, sidewall portions 4 extending outward from each bead portion 3 in the tire radial direction, and a tread portion 5 connecting between upper ends of the bead portions. A carcass 6 is bridged between the parts 3 and 3, and a belt layer 7 is circumferentially wound around the carcass 6 on the outer side in the tire radial direction and on the inner side of the tread part 5.
【0017】前記カーカス6は、カーカスコードをタイ
ヤ赤道EPに対して70〜90°の角度で配列した1枚
以上のカーカスプライから形成され、このカーカスプラ
イは、前記トレッド部5からサイドウォール部4をへて
ビード部3のビードコア2の廻りで内側かつ外側に折返
されて係止されることにより前記のごとく、カーカス6
がビード部3,3間に架け渡される。カーカスプライの
カーカスコードとして、ナイロン、ポリエステル、レー
ヨン、芳香族ポリアミド繊維等からなる有機繊維コード
も用いうるが、本例では、スチールのカーカスコードを
タイヤ赤道EPに対して略90°の角度で配列した1枚
のカーカスプライによって形成している。The carcass 6 is formed by one or more carcass plies in which carcass cords are arranged at an angle of 70 to 90 ° with respect to the tire equator EP, and the carcass ply includes the tread portion 5 to the sidewall portion 4. As described above, the carcass 6 is folded back inwardly and outwardly around the bead core 2 of the bead portion 3 and locked.
Is bridged between the bead parts 3 and 3. As the carcass cord of the carcass ply, an organic fiber cord made of nylon, polyester, rayon, aromatic polyamide fiber or the like can be used, but in this example, steel carcass cords are arranged at an angle of about 90 ° with respect to the tire equator EP. It is formed by one carcass ply.
【0018】前記ベルト層7は、本例では、スチールの
ベルトコードをタイヤ赤道EPに対して、例えば40°
から70°程度のコード角度で傾けたタイヤ半径方向最
内層となる第1ベルトプライ7Aと、タイヤ赤道面EP
に対してベルトコードを10°から30°の小なコード
角度で傾けた第2〜第4のベルトプライ7B、7C、7
Dとの複数枚のベルトプライを用いている。In the present embodiment, the belt layer 7 has a steel belt cord with respect to the tire equator EP, for example, 40 °.
From the first belt ply 7A which is the innermost layer in the tire radial direction inclined at a cord angle of about 70 ° from the tire equatorial plane EP
The second to fourth belt plies 7B, 7C, 7 in which the belt cord is inclined at a small cord angle of 10 ° to 30 ° with respect to
A plurality of belt plies with D are used.
【0019】又前記トレッド部5の外表面をなすトレッ
ド面5Sには、図2に示すように、周方向に連続しての
びる複数本の縦溝Gと、この縦溝G間を横切ることによ
りこの縦溝G間を複数のブロックBに区分する複数本の
横溝gにより形成されるブロックBが周方向に連なる複
数本のブロック列BRが配置される。As shown in FIG. 2, the tread surface 5S forming the outer surface of the tread portion 5 is provided with a plurality of longitudinal grooves G extending continuously in the circumferential direction, and by traversing between the longitudinal grooves G. A plurality of block rows BR in which blocks B formed by a plurality of lateral grooves g that divide the vertical grooves G into a plurality of blocks B are arranged in the circumferential direction are arranged.
【0020】本例において、縦溝Gは、平均の溝巾WG
mが4.0mm以上かつ20.0mm以下の主縦溝Gmと、
平均の溝巾WGsが溝巾WGmよりも小であって、通常
4.0mm未満かつ2.0mm以上の副縦溝Gsとを含みう
る。In this example, the vertical groove G has an average groove width WG.
a main vertical groove Gm in which m is 4.0 mm or more and 20.0 mm or less,
The average groove width WGs is smaller than the groove width WGm, and may include a sub-vertical groove Gs that is generally less than 4.0 mm and 2.0 mm or more.
【0021】前記主縦溝Gmは、本形態では、タイヤ赤
道面に沿って延びる第1の主縦溝Gm1と、タイヤ赤道
面EPとトレッド縁との間の領域の40〜60%をタイ
ヤ赤道面EPから隔て、本例ではその領域をほぼ二等分
する位置に配される左右2本の第2の主縦溝Gm2、G
m2とからなり、また副縦溝Gsは、主縦溝Gm1、主
縦溝Gm2のタイヤ軸方向ほぼ中間位置(両溝Gm1、
Gm2の間の40〜60%を、一方の溝から隔てる領
域)を通る。またトレッド縁の近傍を通る短冊状の細溝
Gkを包含している。In the present embodiment, the main vertical groove Gm covers 40 to 60% of the area between the first main vertical groove Gm1 extending along the tire equatorial plane and the tire equatorial plane EP and the tread edge. In this example, two left and right second main vertical grooves Gm2, G are provided which are separated from the surface EP and divide the area into two substantially equal parts.
m2, and the sub-vertical groove Gs is a substantially vertical position in the tire axial direction between the main vertical groove Gm1 and the main vertical groove Gm2 (both grooves Gm1,
40 to 60% of Gm2 passes through a region separating from one groove). Further, it includes a strip-shaped narrow groove Gk passing near the tread edge.
【0022】これにより、主縦溝Gm1と副縦溝Gsと
の間、副縦溝Gsと主縦溝Gm2との間には、前記横溝
gにより区分されたブロックBが並ぶブロック列BRを
形成している。また主縦溝Gm2のタイヤ軸方向外側に
は、前記第2の副縦溝Gkにより分割された巾狭の分割
ブロックBdを有するリブ状列RLをトレッド縁側に形
成している。As a result, between the main vertical groove Gm1 and the sub vertical groove Gs, and between the sub vertical groove Gs and the main vertical groove Gm2, a block row BR in which the blocks B divided by the horizontal groove g are arranged is formed. is doing. Further, on the outer side of the main vertical groove Gm2 in the tire axial direction, a rib-shaped row RL having a narrow divided block Bd divided by the second sub vertical groove Gk is formed on the tread edge side.
【0023】本形態では、このように、トレッド面5S
には、タイヤ赤道EPの両側に対称となる主縦溝Gm1
と副縦溝Gsとの間のブロック列BR1、BR1と、そ
のタイヤ軸方向外側に配され副縦溝Gsと主縦溝Gm2
との間のブロック列BR2、BR2との合計4列のブロ
ック列BR、及びトレッド縁側のリブ状列RLとが形成
され、かつこのリブ状列RLも、トレッド縁からのびる
ラグ溝Gr1と主縦溝Gm2からのびるラグ状溝Gr2
が周方向に交互に入りこみ、かつサイプにより区分され
るブロック列状をなす。In this embodiment, as described above, the tread surface 5S is
Is a main vertical groove Gm1 symmetrical on both sides of the tire equator EP.
And the sub-vertical groove Gs between the block rows BR1 and BR1, and the sub-vertical groove Gs and the main vertical groove Gm2 that are arranged on the outer side in the tire axial direction.
Between them and a block row BR2, a total of four block rows BR including BR2, and a rib-like row RL on the tread edge side are formed, and this rib-like row RL also has a lug groove Gr1 extending from the tread edge and a main longitudinal direction. A lug-shaped groove Gr2 extending from the groove Gm2
Are alternately arranged in the circumferential direction and are divided into blocks by sipe.
【0024】主縦溝Gmと副縦溝Gsをタイヤ軸方向に
交互に配することにより、すべての縦溝Gを巾の広い主
縦溝Gmで構成することによる摩耗寿命の低下を防止す
るとともに、摩耗寿命を低下させにくい巾の狭い副縦溝
Gsによって、大きい横剛性の横長のブロックによりタ
イヤ軸方向に区分でき横剛性を高めるとともに、主縦溝
GmはブロックBによる氷上の横滑り防止性能を高める
ことができる。By alternately arranging the main vertical grooves Gm and the sub vertical grooves Gs in the axial direction of the tire, it is possible to prevent the wear life from being shortened by constituting all the vertical grooves G with wide main vertical grooves Gm. The narrow vertical sub-groove Gs, which does not easily reduce the wear life, can be divided in the axial direction of the tire with a laterally long block having a large lateral rigidity to increase the lateral rigidity, and the main vertical groove Gm provides the block B with anti-skid performance on ice. Can be increased.
【0025】また副縦溝Gsは巾が4.0mm未満である
ため、高荷重下の重荷重用空気入りタイヤに大きな横力
が加わった場合、ブロックB1とB2が互いに接触し、
過度の横変形を防止して、ブロック欠けや偏摩耗を防
ぐ。Further, since the width of the sub-vertical groove Gs is less than 4.0 mm, when a large lateral force is applied to the heavy-duty pneumatic tire under high load, the blocks B1 and B2 come into contact with each other,
Prevents excessive lateral deformation and prevents block chipping and uneven wear.
【0026】さらに、主縦溝Gmと副縦溝Gsによって
形成されるブロック列BRは少なくとも4列とする。こ
れは4列未満では、タイヤ赤道EP両側のクラウン部に
おいて、横剛性について前記した作用を奏するのを困難
とする。Further, the block row BR formed by the main vertical groove Gm and the sub vertical groove Gs is at least four rows. If the number of rows is less than four, it becomes difficult to achieve the above-mentioned effect regarding lateral rigidity at the crown portions on both sides of the tire equator EP.
【0027】前記ブロック列BR1、BR2のブロック
Bは、V字の突端aがタイヤ周方向に向き、かつ巾方向
に連続して両端が前記縦溝Gに開口するV字状サイピン
グSaが、該各ブロックBの略周方向中央位置(中央か
らブロック周長さLBの1/4を隔ている範囲内)に形
成されるV字サイプブロックBaを構成している。従っ
て、前記ブロック列BR1、BR2はこのV字サイプブ
ロックBaが周方向に並ぶV字サイプブロック列BRa
を形成している。ブロック列BRにはV字サイプブロッ
ク列BRaでないブロック列を包含させることができ、
かつ2本以上の4本以下のV字状サイピングSaを1つ
のブロックBに設けることもできる。In the block B of the block rows BR1 and BR2, the V-shaped sipings Sa having V-shaped projecting ends a directed in the tire circumferential direction and having both ends continuously open in the vertical groove G are formed in the width direction. A V-shaped sipe block Ba is formed at a substantially central position in the circumferential direction of each block B (within a range separated from the center by ¼ of the block circumferential length LB). Therefore, in the block rows BR1 and BR2, the V-shaped sipe blocks Ba are arranged in the V-shaped sipe block Ba in the circumferential direction.
Is formed. The block row BR can include a block row that is not the V-shaped sipe block row BRa,
Also, two or more and four or less V-shaped sipings Sa can be provided in one block B.
【0028】又V字サイプブロックBaは、タイヤ周方
向の一方端面が前記V字状サイピングSaの形状に合わ
せて周方向に突端aが向く凸のV字端壁面を具えるとと
もに、他方端面は、V字状サイピングSaの形状に合わ
せて、凹のV字端壁面を形成している。これにより、V
字状サイピングSaを有するV字サイプブロックBaは
平面矢筈状をなし、これによって、前記横溝gも前記
凹、凸のV字端壁面に合わせてV字に折れ曲がってい
る。なおV字サイプブロックBaは、前記主縦溝Gmに
向く側壁を中凸の小角度で折れ曲がるく字状とし、副縦
溝Gsに向く側壁を周方向の直線状としている。The V-shaped sipe block Ba has a convex V-shaped end wall surface whose one end face in the tire circumferential direction is directed to the circumferential direction in accordance with the shape of the V-shaped siping Sa and whose other end face is the other. , The concave V-shaped end wall surface is formed according to the shape of the V-shaped siping Sa. This gives V
The V-shaped sipe block Ba having the V-shaped siping Sa is in the shape of a plane arrow, whereby the lateral groove g is also bent into a V shape in accordance with the V-shaped end wall surface of the concave or convex shape. In the V-shaped sipe block Ba, the side wall facing the main vertical groove Gm is formed in a V shape that bends at a small convex angle, and the side wall facing the sub vertical groove Gs is formed in a straight line in the circumferential direction.
【0029】さらにブロック列BRaのV字状サイピン
グSaの向きを、タイヤ軸方向に隣合う隣り合うV字サ
イプブロック列BRa、即ちブロック列BR1,BR2
・・において該V字の突端aの周方向の向きを異ならせ
ている。これにより、複輪装着、タイヤローテンション
の関係から、方向性パターンを用いにくい重荷重用空気
入りタイヤにおいて、非方向性パターンとする。即ち本
形態においては、トレッドパターンはタイヤ赤道EP上
の点において点対称としている。なおV字状サイピング
Saとすることによって氷上の水膜を効果的に破り、か
つV字の向きを異ならせることによって、いずれの向き
に回転する場合であっても、氷上の水膜を効果的に破通
して、氷上グリップを向上、安定させることができる。Further, the direction of the V-shaped siping Sa of the block row BRa is set so that the adjacent V-shaped sipe block rows BRa adjacent to each other in the tire axial direction, that is, the block rows BR1 and BR2.
.., the direction of the V-shaped tip a in the circumferential direction is different. Accordingly, in the heavy-duty pneumatic tire in which it is difficult to use the directional pattern, the non-directional pattern is set in consideration of the mounting of the multiple wheels and the tire low tension. That is, in the present embodiment, the tread pattern has point symmetry at a point on the tire equator EP. Note that the V-shaped siping Sa effectively breaks the water film on the ice, and the V-shaped direction is changed so that the water film on the ice can be effectively rotated regardless of the direction of rotation. It can break through to improve and stabilize the grip on ice.
【0030】又図3に拡大して示すごとく、凸状のV字
端壁面の突端aを起点として横溝gで開口し周方向に延
びかつV字状サイピングSaに交わることなく途切れる
周方向サイピングScが形成される。なお、周方向サイ
ピングScの周方向長さLScは、ブロックBの周方向
長さLBの約0.05〜0.45倍、好ましくは0.1
〜0.25倍程度とする。Further, as shown in an enlarged view in FIG. 3, the circumferential siping Sc is opened at the lateral groove g starting from the projecting end a of the convex V-shaped end wall surface, extends in the circumferential direction, and is interrupted without intersecting with the V-shaped siping Sa. Is formed. The circumferential length LSc of the circumferential siping Sc is approximately 0.05 to 0.45 times the circumferential length LB of the block B, preferably 0.1.
˜0.25 times.
【0031】氷上走行中に、ブロックBに軸方向の力、
すなわちタイヤに横力が加わったとき、周方向サイピン
グScが開き、エッジ効果及び周方向サイピングScの
水膜破壊効果により、横滑りを抑制することができる。
また周方向サイピングScの内端がV字状サイピングS
aに開口しないことにより、ブロックBの横剛性が低下
しすぎることを防止でき、横力によるブロック欠けを抑
制できる。また凸状のV字壁面の突端aに周方向サイピ
ングScを形成することにより、水膜破通効果を高めう
る。During traveling on ice, the block B receives an axial force,
That is, when lateral force is applied to the tire, the circumferential siping Sc opens, and skid can be suppressed by the edge effect and the water film destruction effect of the circumferential siping Sc.
Further, the inner end of the circumferential siping Sc is a V-shaped siping S.
By not opening to a, it is possible to prevent the lateral rigidity of the block B from being lowered too much, and it is possible to suppress block breakage due to lateral force. Further, by forming the circumferential siping Sc at the projecting end a of the convex V-shaped wall surface, the water film breaking effect can be enhanced.
【0032】ブロックBは、タイヤ軸方向に隣り合うブ
ロック列BRのブロックBにおいてタイヤ周方向に位相
をずらして配置し、各ブロック列BRのブロックBの略
周方向中央位置には、隣のブロック列BRにおける横溝
gが配置され、これにより、タイヤ周方向でのトレッド
全体の曲げ剛性の小さい横溝gの部分がトレッド周方向
に分散されて偏摩耗を防止することができる。The blocks B are arranged in the blocks B of the block rows BR which are adjacent to each other in the tire axial direction with their phases shifted in the tire circumferential direction, and adjacent blocks are arranged at the substantially central positions in the circumferential direction of the blocks B of each block row BR. The lateral grooves g in the row BR are arranged, whereby the portions of the lateral grooves g having a small bending rigidity of the entire tread in the tire circumferential direction are dispersed in the tread circumferential direction and uneven wear can be prevented.
【0033】前記横溝gは、周方向長さ、即ち溝巾Wg
が異なる複数種類、本形態では溝巾Wg1の横溝g1
と、前記溝巾Wg1よりも大きい溝巾Wg2の溝g2と
を含み、かつ横溝g1,g2はタイヤ周方向に交互に配
置されるとともに、各横溝g1,g2には、周方向に隣
り合うV字サイプブロックBa、Baを継ぐ連結部Cが
隆起形成される。The lateral groove g has a circumferential length, that is, a groove width Wg.
Different types, lateral groove g1 having groove width Wg1 in this embodiment
And a groove g2 having a groove width Wg2 larger than the groove width Wg1, and the lateral grooves g1 and g2 are alternately arranged in the tire circumferential direction, and the lateral grooves g1 and g2 are adjacent to each other in the circumferential direction. The connecting portion C connecting the character sipe blocks Ba and Ba is formed as a protrusion.
【0034】横溝g1,g2の溝巾Wgが、溝巾Wg
1,溝巾Wg2と異なることにより、本形態では連結部
Cは、溝巾Wg1が小の横溝g1に配され、周方向長さ
LC1の第1の連結部C1と、横溝g2に配され、周方
向長さLC2が前記周方向長さLC1よりも大きい第2
の連結部C2との2種類からなり、かつ第2の連結部C
2の巾WC2は、第1の連結部C2の巾WC1よりも大
としている。なお周方向長さLC2,巾WC2は前記V
字サイプブロックBaの周方向長さLB、巾WBよりは
いずれも小とし、かつ第1の連結部C1と、第2の連結
部C2とは周方向に交互に配される。また連結部Cはさ
らに多数種類とすることも、配置順序を変化することも
できる。The groove width Wg of the lateral grooves g1 and g2 is the groove width Wg.
1, since the groove width Wg2 is different from the groove width Wg2, in this embodiment, the connecting portion C is arranged in the lateral groove g1 having a small groove width Wg1, the first connecting portion C1 having the circumferential length LC1 and the lateral groove g2. A second circumferential length LC2 larger than the circumferential length LC1;
And the second connecting portion C2.
The width WC2 of 2 is larger than the width WC1 of the first connecting portion C2. The circumferential length LC2 and width WC2 are V
Both of the circumferential length LB and the width WB of the character sipe block Ba are smaller than each other, and the first connecting portions C1 and the second connecting portions C2 are alternately arranged in the circumferential direction. Further, the number of the connecting portions C may be increased and the arrangement order may be changed.
【0035】この結果、第1の連結部C1の周方向長さ
LC1と、第2の連結部C2の周方向長さLC2と、ブ
ロックBの周方向長さLBは、LB>LC2>LC1の
関係にあり、第1の連結部C1の軸方向の巾WC1と、
第2の連結部C2の軸方向の巾WC2と、ブロックBの
軸方向巾WBは、WB>WC2>WC1の関係にある。As a result, the circumferential length LC1 of the first connecting portion C1, the circumferential length LC2 of the second connecting portion C2, and the circumferential length LB of the block B are LB>LC2> LC1. In relation to the axial width WC1 of the first connecting portion C1,
The axial width WC2 of the second connecting portion C2 and the axial width WB of the block B have a relationship of WB>WC2> WC1.
【0036】このような連結部Cを各ブロックB間に配
置することにより、ブロックの周方向の動きを制御して
偏摩耗、特にブロックのタイヤ周方向の一端が早期に摩
耗して、タイヤを軸方向外方から見たとき鋸刃状になる
ヒールアンドトウ摩耗(以下H/T摩耗という)を防止
することができる。さらに、周方向長さ及び軸方向巾の
短い第1の連結部C1は、トレッド表面5Sに、タイヤ
半径方向の高荷重とともにタイヤ周方向の大きな制動力
または駆動力が加わったとき、ブロック間が接触して過
度の変位を防止することにより、偏摩耗やブロック欠け
を防止できる。周方向長さの大きい第2の連結部C2
は、横溝gの容積を保持して雪柱せん断力を確保する。By arranging such a connecting portion C between the blocks B, the movement of the blocks in the circumferential direction is controlled to cause uneven wear, and in particular, one end of the blocks in the tire circumferential direction is worn early so that the tire is worn. It is possible to prevent heel-and-toe wear (hereinafter referred to as H / T wear), which is saw-toothed when viewed from the outside in the axial direction. Further, when the first connecting portion C1 having a short circumferential length and a short axial width is applied to the tread surface 5S with a large load in the tire radial direction and a large braking force or driving force in the tire circumferential direction, the distance between the blocks is increased. By contacting and preventing excessive displacement, uneven wear and block chipping can be prevented. Second connecting portion C2 having a large circumferential length
Keeps the volume of the lateral groove g and secures the snow column shearing force.
【0037】また連結部Cは、本例では、前記横溝gの
巾Wgのタイヤ軸方向中心を通る周方向線を中心として
対称巾をなし、かつ本形態では、図4に示すように、そ
の上面Csは、前記トレッド面5Sよりも沈み、かつ前
記主縦溝Gmの溝底面よりも高く形成される。また本形
態では、連結部Cの主縦溝Gmに向く側のタイヤ軸方向
端縁は、該主縦溝Gmの溝底面に連なる下向きの側壁c
w1を形成する。他方、副縦溝Gsに向く側のタイヤ軸
方向端部は、図3,4に示すように、この副縦溝Gsの
溝底面が、前記連結部Cの上面Caよりも半径方向上方
にあることによって、その端部は上向きの側壁cw2を
形成している。Further, in this example, the connecting portion C has a symmetrical width about the circumferential line passing through the tire axial direction center of the width Wg of the lateral groove g, and in the present embodiment, as shown in FIG. The upper surface Cs is formed lower than the tread surface 5S and higher than the groove bottom surface of the main vertical groove Gm. Further, in the present embodiment, the tire axial direction edge of the connecting portion C on the side facing the main vertical groove Gm is a downward side wall c continuous to the groove bottom surface of the main vertical groove Gm.
form w1. On the other hand, at the tire axial end on the side facing the sub-vertical groove Gs, as shown in FIGS. 3 and 4, the groove bottom surface of the sub-vertical groove Gs is located above the upper surface Ca of the connecting portion C in the radial direction. As a result, the end portion forms the upward side wall cw2.
【0038】なお、主縦溝Gmの深さHGmに対する連
結部Cの上面Csまでの深さHCの比HC/HGmは、
0.50以上かつ0.78以下の範囲にあることが好ま
しい。0.50未満では前記連結部の効果が発揮されに
くく、0.78を越えるとブロックパターンとしての雪
上グリップ性能が低下する。さらに本形態では、前記副
縦溝Gsの深さHGsは、前記上面Csまでの深さHC
の0.2〜0.7倍程度で副縦溝Gsを浅くしている。
しかし後記するごとく、副縦溝Gsの深さHGsを連結
部Cの深さHCよりも大であって、主縦溝Gmの深さD
Gmの0.8〜0.4倍程度とし排水性を向上すること
もできる。The ratio HC / HGm of the depth HC to the upper surface Cs of the connecting portion C to the depth HGm of the main vertical groove Gm is
It is preferably in the range of 0.50 or more and 0.78 or less. If it is less than 0.50, the effect of the connecting portion is difficult to be exhibited, and if it exceeds 0.78, the grip performance on snow as a block pattern is deteriorated. Further, in the present embodiment, the depth HGs of the sub-vertical groove Gs is the depth HC to the upper surface Cs.
The sub-vertical groove Gs is shallowed by about 0.2 to 0.7 times.
However, as will be described later, the depth HGs of the sub-vertical groove Gs is larger than the depth HC of the connecting portion C and the depth D of the main vertical groove Gm is larger than the depth HC of the connecting portion C.
The drainage property can be improved by setting it to about 0.8 to 0.4 times Gm.
【0039】前記のように、一方のタイヤ軸方向の端部
において副縦溝Gsを連結部Cの上面Caよりも浅くす
ることにより、比較的早い摩耗の中期以前にトレッド面
にその溝底面を露出させ、これによりタイヤ軸方向のエ
ッジ効果を補強してタイヤの横滑りを低減する。なお、
図6に示すように、副縦溝Gsの溝底面を前記連結部C
の上面Caよりも半径方向下方とすることもでき、排水
性を維持するようにも構成しうる。As described above, by making the sub-vertical groove Gs shallower than the upper surface Ca of the connecting portion C at one end portion in the axial direction of the tire, the groove bottom surface is formed on the tread surface before the middle stage of relatively fast wear. It is exposed, which reinforces the edge effect in the tire axial direction and reduces the sideslip of the tire. In addition,
As shown in FIG. 6, the bottom surface of the sub-vertical groove Gs is connected to the connecting portion C.
It may be located below the upper surface Ca in the radial direction, and the drainage property may be maintained.
【0040】又連結部Cに関して、V字サイプブロック
Baの周方向長さLBに対する第1の連結部C1の周方
向長さLC1の比LC1/LBを0.08〜0.20と
する。0.08未満では、横溝の効果が発揮しえず、
0.20を越えると、前記ブロック間の過度の変位の抑
制効果が発揮されにくい。第2の連結部C2の周方向長
さLC2の比LC2/LBを0.35〜0.45として
いる。0.35未満では、雪上グリップのもとになる横
溝g内の雪柱せん断力は減少し。0.45を越えると摩
耗寿命の低下が大きくなりすぎる。又連結部Cの巾WC
(副縦溝Gsの溝底面が、上面Caの半径方向上方にあ
るときにも前記上面Caの巾をいう)は、V字サイプブ
ロックBaの巾WBの0.60〜0.70の範囲とす
る。0.60未満では、連結部の効果が発揮されにく
く、0.70を越えると、横溝gの効果がでにくい。Regarding the connecting portion C, the ratio LC1 / LB of the circumferential length LC1 of the first connecting portion C1 to the circumferential length LB of the V-shaped sipe block Ba is set to 0.08 to 0.20. If it is less than 0.08, the effect of the lateral groove cannot be exerted,
When it exceeds 0.20, the effect of suppressing excessive displacement between the blocks is difficult to be exhibited. The ratio LC2 / LB of the circumferential length LC2 of the second connecting portion C2 is set to 0.35 to 0.45. When it is less than 0.35, the snow column shearing force in the lateral groove g which is a source of grip on snow decreases. If it exceeds 0.45, the deterioration of the wear life becomes too large. The width WC of the connecting portion C
(The width of the sub-vertical groove Gs means the width of the upper surface Ca even when the groove bottom surface is above the upper surface Ca in the radial direction.) To do. If it is less than 0.60, the effect of the connecting portion is difficult to be exhibited, and if it exceeds 0.70, the effect of the lateral groove g is difficult to be obtained.
【0041】なおV字状サイピングSaはその深さHs
aを、主縦溝深さHGmの40〜70%の範囲としてサ
イピングとしての機能を発揮させるとともに、周方向サ
イピングScは、その深さHscを、連結部深さHCの
65〜75%の範囲として欠損を防止するのがよく、ま
た本発明に係る自動二輪車用タイヤは、第1の連結部C
1の深さDC1と第2の連結部C2の深さDC2を異な
らせ、縦溝Gとして同幅のもののみを用い、また配列、
トレッドパターンとしてピッチバリエーションを採用す
るなど、種々な変形ができる。The V-shaped siping Sa has a depth Hs.
The function of siping is exhibited by setting a to a range of 40 to 70% of the main vertical groove depth HGm, and the circumferential siping Sc has a depth Hsc of 65 to 75% of the connecting portion depth HC. It is preferable to prevent the damage, and the motorcycle tire according to the present invention has the first connecting portion C.
The depth DC1 of 1 and the depth DC2 of the second connecting portion C2 are made different, and only those having the same width are used as the vertical grooves G.
Various modifications are possible, such as adopting pitch variations as the tread pattern.
【0042】[0042]
【実施例】図1の構成を有するタイヤサイズ11R2
2.5のタイヤを表1の仕様に基づき、各試供タイヤに
おける氷雪性能をテストし、これらを比較した。なおタ
イヤ構造は、表2に示す如く、各タイヤ共通である。テ
ストは、試供タイヤを8.25×22.5のリムにリム
組みし、内圧700kPaを充填し、積載量8tの2−
D車両の全輪に装着して、フル積載78kNで以下の評
価・測定を行った。実施例1〜6のタイヤとともに、比
較例1,2及び図7,図8に示す比較例3,4のタイヤ
についても評価・測定した。図7のタイヤはV字状サイ
ピングがなく、図8のタイヤはブロックが矢はず状では
なく、かつサイピングも直線状に形成されている。なお
比較例3,4において、各部の深さは実施例に準じた位
置の値である。EXAMPLES Tire size 11R2 having the configuration of FIG.
Based on the specifications of Table 1, the 2.5 tires were tested for ice and snow performance in each sample tire, and these tires were compared. The tire structure is common to all tires as shown in Table 2. In the test, the test tire was assembled on an 8.25 × 22.5 rim, filled with an internal pressure of 700 kPa, and loaded with a load of 8 t.
The following evaluations and measurements were carried out with a full load of 78 kN mounted on all wheels of the D vehicle. The tires of Examples 1 to 6 and the tires of Comparative Examples 1 and 2 and Comparative Examples 3 and 4 shown in FIGS. 7 and 8 were evaluated and measured. The tire of FIG. 7 does not have V-shaped siping, and the tire of FIG. 8 does not have an arrow-shaped block and the siping is formed in a straight line. In Comparative Examples 3 and 4, the depth of each part is the value at the position according to the example.
【0043】<氷上の横滑り量>氷上発進時のドライブ
軸の横滑り量を前後、左右のG測定を行い、比較例1を
100とする指数に換算することにより求めた。前後G
が大、左右Gが小、前後Gが小、左右Gが大であるとき
横すべり量が大となる。<Amount of skid on ice> The amount of skid of the drive shaft at the time of starting on ice was measured by performing G measurement on the front and rear, and on the left and right, and converting it into an index with Comparative Example 1 being 100. Front and back G
Is large, the left and right G is small, the front and rear G is small, and the left and right G is large, the side slip amount becomes large.
【0044】<氷雪上制動性能>制動テストと発進テス
トとを行い、制動テストとしては、氷雪路において、速
度30km /hからロック急制動をかけて制動距離を
測定し、比較例1を100とする指数で表示している。
数値が小さいほど制動距離が短く氷雪制動性に優れる。<Breaking performance on ice and snow> A braking test and a starting test were performed, and as the braking test, the braking distance was measured by applying a quick braking lock from a speed of 30 km / h on the ice and snow road, and Comparative Example 1 was set to 100. It is displayed as an index.
The smaller the value, the shorter the braking distance and the better the snow and snow braking performance.
【0045】<氷雪上発進テスト>氷雪路で車両を発進
させたり走行中に加速させ、その時のトラクション性能
をドライバーのフィーリングにより比較例1を100と
する指数で表示している。数値が大きいほどトラクショ
ン性能に優れ発進性が良い。<Starting Test on Ice / Snow> The vehicle is started on an ice / snow road or accelerated while running, and the traction performance at that time is displayed as an index with Comparative Example 1 being 100 according to the driver's feeling. The larger the value, the better the traction performance and the better the starting performance.
【0046】<偏摩耗評価>各タイヤで20,000km
を走行し、偏摩耗量として、ブロック間の段差、いわゆ
るヒールアンドトウ摩耗量を測定した。<Evaluation of uneven wear> 20,000 km for each tire
As the uneven wear amount, the step difference between blocks, that is, the so-called heel and toe wear amount was measured.
【0047】[0047]
【表1】 [Table 1]
【0048】[0048]
【表2】 [Table 2]
【0049】[0049]
【発明の効果】前述の如く本発明は構成しているため、
雪柱剪断力とエッジ効果とを大巾に向上でき、氷雪性能
を高め、また、偏摩耗やブロック欠けを有効に防止しう
る。Since the present invention is configured as described above,
The snow column shearing force and the edge effect can be greatly improved, ice and snow performance can be improved, and uneven wear and block chipping can be effectively prevented.
【図1】本発明のタイヤを構成しうるタイヤの一例を示
す断面図である。FIG. 1 is a cross-sectional view showing an example of a tire that can constitute the tire of the present invention.
【図2】本発明の1実施の形態のトレッドパターンを例
示するトレッド面展開図である。FIG. 2 is a development view of a tread surface illustrating a tread pattern according to an embodiment of the present invention.
【図3】ブロック列の一部を示す平面図である。FIG. 3 is a plan view showing a part of a block row.
【図4】タイヤ子午線断面図である。FIG. 4 is a sectional view of a tire meridian.
【図5】ブロックを例示する斜視図である。FIG. 5 is a perspective view illustrating a block.
【図6】他のタイヤを例示する断面図である。FIG. 6 is a cross-sectional view illustrating another tire.
【図7】比較例タイヤのブロックパターンを右半分で示
す平面図である。FIG. 7 is a plan view showing the block pattern of a comparative tire in the right half.
【図8】他の比較例タイヤのブロックパターンを右半分
で示す平面図である。FIG. 8 is a plan view showing a block pattern of another comparative tire in the right half.
2 ビードコア 3 ビード部 4 サイドウォール部 5 トレッド部 6 カーカス 7 ベルト B ブロック BR,BR1,BR2 ブロック列 Ba V字サイプブロック BRa V字サイプブロック列 g,g1,g2 横溝 C,C1,C2 連結部 Sa V字状サイピング Sc 周方向サイピング G 縦溝 Gm 主縦溝 Gs 副縦溝 LB ブロック周方向長さ LC1 第1の連結部の周方向長さ LC2 第2の連結部の周方向長さ WB ブロック巾 WC1 第1の連結部の巾 WC2 第2の連結部の巾 WGm 主縦溝のタイヤ軸方向の巾 WGs 副縦溝のタイヤ軸方向の巾 HGm 主縦溝の深さ HBs 副縦溝の深さ HC 連結部深さ HSa V字状サイピングの深さ HSc 周方向サイピングの深さ LSc 周方向サイピングの周方向長さ 2 bead core 3 bead part 4 Sidewall part 5 tread section 6 carcass 7 belt B block BR, BR1, BR2 block row Ba V-shaped sipe block BRa V-shaped sipe block row g, g1, g2 lateral groove C, C1, C2 connecting part Sa V-shaped siping Sc Circumferential siping G flute Gm main vertical groove Gs sub flute LB block circumferential length LC1 circumferential length of the first connecting portion LC2 circumferential length of the second connecting portion WB block width WC1 Width of first connecting part WC2 Width of second connecting part WGm Width of main vertical groove in tire axial direction WGs Width of sub vertical groove in tire axial direction HGm Depth of main flute HBs Depth of vertical groove HC connection depth HSa V-shaped siping depth HSc Circumferential siping depth LSc Circumferential length of circumferential siping
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) B60C 11/04 B60C 11/11 B60C 11/12 ─────────────────────────────────────────────────── ─── Continuation of front page (58) Fields surveyed (Int.Cl. 7 , DB name) B60C 11/04 B60C 11/11 B60C 11/12
Claims (9)
数の縦溝Gと、この縦溝間を横切る複数の横溝gとによ
り区分されるブロックBが周方向に隔設される複数列の
ブロック列BRを有し、 前記ブロック列BRには、ブロックBに、V字の突端a
がタイヤ周方向に向き、かつ巾方向に連続して両端が前
記縦溝Gに開口するV字状サイピングSaを有するV字
サイプブロックBaが周方向に並ぶV字サイプブロック
列BRaを含み、 かつタイヤ軸方向に隣り合うV字サイプブロック列BR
aにおいて該V字の突端aの周方向の向きを異ならせる
とともに、 周方向に隣り合う前記V字サイプブロックBa間には、
上面がトレッド面よりも沈みしかも少なくとも一方のタ
イヤ軸方向端部が面する縦溝Gの溝底面よりも高い上面
を有する連結部Cを設けることにより前記V字サイプブ
ロックBa、Ba間を継ぐとともに、 前記連結部Cは、前記横溝gの溝巾が異なることにより
周方向長さLCが異なり、かつタイヤ軸方向の巾WCも
異なる複数種類の連結部Cを含むことを特徴とする重荷
重用空気入りタイヤ。1. A plurality of rows in which blocks B are sectioned in the circumferential direction, which are divided by a plurality of vertical grooves G extending continuously in the circumferential direction on the tread surface and a plurality of horizontal grooves g crossing between the vertical grooves. The block row BR includes a block row BR, and the block row BR has a V-shaped tip a on the block B.
Includes a V-shaped sipe block row BRa that is arranged in the circumferential direction and that has a V-shaped sipe block Ba that has a V-shaped sipe Sa that is oriented in the tire circumferential direction and that is continuous in the width direction and has both ends open to the vertical groove G. V-shaped sipe block row BR adjacent to each other in the tire axial direction
In a, the direction of the V-shaped tip a in the circumferential direction is made different, and between the V-shaped sipe blocks Ba adjacent in the circumferential direction,
By providing a connecting portion C whose upper surface is lower than the tread surface and whose upper surface is higher than the groove bottom surface of the longitudinal groove G facing at least one tire axial end, the V-sipe blocks Ba and Ba are joined together. The connecting portion C includes a plurality of kinds of connecting portions C having different circumferential lengths LC due to the different groove widths of the lateral grooves g and different tire axial widths WC. Included tires.
LC1の第1の連結部C1と、前記周方向長さLC1よ
りも長い周方向長さLC2の第2の連結部C2とを含
み、かつ第2の連結部C2の巾WC2は、第1の連結部
C2の巾WC1よりも大とするとともに、前記V字サイ
プブロックBaの周方向長さLB、巾WBよりはいずれ
も小であることを特徴とする請求項1記載の重荷重用空
気入りタイヤ。2. The connecting portion C comprises a first connecting portion C1 having a circumferential length LC1 and a second connecting portion having a circumferential length LC2 longer than the circumferential length LC1. C2 and the width WC2 of the second connecting portion C2 is larger than the width WC1 of the first connecting portion C2, and the width WC and the width WB of the V-shaped sipe block Ba in the circumferential direction are larger than the width WC1. The pneumatic tire for heavy loads according to claim 1, wherein each of them is small.
長さLC1の第1の連結部C1と、前記周方向長さLC
1よりも長い周方向長さLC2の第2の連結部C2との
2種類からなり、かつタイヤ周方向に交互に配したこと
を特徴とする請求項1又は2記載の重荷重用空気入りタ
イヤ。3. The connecting portion C includes a first connecting portion C1 having a circumferential length LC1 in the circumferential direction, and the circumferential length LC.
The heavy-duty pneumatic tire according to claim 1 or 2, which is made of two kinds of second connecting portions C2 having a circumferential length LC2 longer than 1, and is arranged alternately in the tire circumferential direction.
20.0mm以下の主縦溝Gmと、2.0mm以上かつ4.
0mm以下の溝巾の副縦溝Gsとからなり、 かつ前記連結部Cの前記主縦溝Gmの溝底からの高さH
Cと、前記主縦溝Gmの深さHGmとの比HC/HGm
を、0.50以上かつ0.78以下としたことを特徴と
する請求項1〜3のいずれかに記載の重荷重用空気入り
タイヤ。4. The main groove Gm having a groove width greater than 4.0 mm and not more than 20.0 mm and the vertical groove G having a groove width of not less than 2.0 mm and not less than 2.0 mm.
A sub-vertical groove Gs having a groove width of 0 mm or less, and a height H from the groove bottom of the main vertical groove Gm of the connecting portion C.
Ratio of C and depth HGm of the main vertical groove Gm HC / HGm
Was set to 0.50 or more and 0.78 or less. 4. The heavy duty pneumatic tire according to claim 1, wherein
に対する第1の連結部C1の周方向長さLC1の比LC
1/LBを0.08〜0.20、第2連結部C2の周方
向長さLC2の比LC2/LBを0.35〜0.45と
したことを特徴とする請求項1〜4のいずれかに記載の
重荷重用空気入りタイヤ。5. A circumferential length LB of the V-shaped sipe block Ba.
Ratio LC of the circumferential length LC1 of the first connecting portion C1 to
5. 1 / LB is 0.08 to 0.20, and the ratio LC2 / LB of the circumferential length LC2 of the second connecting portion C2 is 0.35 to 0.45. The heavy-duty pneumatic tire of Crab.
Baの巾WBの0.60〜0.70の範囲にあることを
特徴とする請求項1〜5のいずれかに記載の重荷重用空
気入りタイヤ。6. The load according to claim 1, wherein the width WC of the connecting portion C is in the range of 0.60 to 0.70 of the width WB of the V-shaped sipe block Ba. Heavy duty pneumatic tire.
の一方端面が前記V字状サイピングSaの形状に合わせ
たV字壁面を具えるとともに、その突端aから周方向に
延びかつV字状サイピングSaに交わりことなく途切れ
る周方向サイピングScを有することを特徴とする請求
項1〜6のいずれかに記載の重荷重用空気入りタイヤ。7. The V-shaped sipe block Ba has a V-shaped wall surface whose one end face in the tire circumferential direction matches the shape of the V-shaped siping Sa, and extends from the projecting end a in the circumferential direction and has a V-shaped shape. The heavy-duty pneumatic tire according to any one of claims 1 to 6, which has a circumferential siping Sc that does not intersect with the siping Sa and is interrupted.
部よりも半径方向上方にあることを特徴とする請求項4
記載の重荷重用空気入りタイヤ。8. The sub-vertical groove Gs is characterized in that its groove bottom is located above the connecting portion in the radial direction.
The pneumatic tire for heavy load described.
部よりも半径方向下方にあることを特徴とする請求項4
記載の重荷重用空気入りタイヤ。9. The sub-vertical groove Gs is characterized in that the groove bottom is located below the connecting portion in the radial direction.
The pneumatic tire for heavy load described.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2001317058A JP3493190B2 (en) | 2001-10-15 | 2001-10-15 | Heavy duty pneumatic tires |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2001317058A JP3493190B2 (en) | 2001-10-15 | 2001-10-15 | Heavy duty pneumatic tires |
Publications (2)
Publication Number | Publication Date |
---|---|
JP2003118320A JP2003118320A (en) | 2003-04-23 |
JP3493190B2 true JP3493190B2 (en) | 2004-02-03 |
Family
ID=19134985
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JP2001317058A Expired - Fee Related JP3493190B2 (en) | 2001-10-15 | 2001-10-15 | Heavy duty pneumatic tires |
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Families Citing this family (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4277982B2 (en) * | 2003-05-19 | 2009-06-10 | 横浜ゴム株式会社 | Pneumatic radial tire for icy and snowy roads |
FR2894183B1 (en) * | 2005-12-06 | 2008-02-15 | Michelin Soc Tech | TIRE TREAD FOR PNEUMATIC HEAVY WEIGHT |
KR100934235B1 (en) * | 2007-09-28 | 2009-12-24 | 금호타이어 주식회사 | Heavy Duty Pneumatic Radial Tires |
CN102282027B (en) | 2009-01-20 | 2013-12-18 | 株式会社普利司通 | Tire |
JP4829994B2 (en) * | 2009-04-06 | 2011-12-07 | 住友ゴム工業株式会社 | Pneumatic tire |
JP5210334B2 (en) * | 2010-02-05 | 2013-06-12 | 住友ゴム工業株式会社 | Heavy duty tire |
EP2546080B1 (en) * | 2010-03-12 | 2015-01-14 | Bridgestone Corporation | Pneumatic tyre |
JP5227355B2 (en) * | 2010-03-19 | 2013-07-03 | 住友ゴム工業株式会社 | Heavy duty tire |
JP5123981B2 (en) * | 2010-04-27 | 2013-01-23 | 住友ゴム工業株式会社 | Heavy duty tire |
JP5081291B2 (en) * | 2010-11-11 | 2012-11-28 | 住友ゴム工業株式会社 | Heavy duty pneumatic tire |
JP5675580B2 (en) * | 2011-12-21 | 2015-02-25 | 株式会社ブリヂストン | Pneumatic tire |
US10232669B2 (en) * | 2014-11-27 | 2019-03-19 | Sumitomo Rubber Industries, Ltd. | Heavy duty pneumatic tire |
-
2001
- 2001-10-15 JP JP2001317058A patent/JP3493190B2/en not_active Expired - Fee Related
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