JP3035278B1 - Pneumatic tire - Google Patents
Pneumatic tireInfo
- Publication number
- JP3035278B1 JP3035278B1 JP10310747A JP31074798A JP3035278B1 JP 3035278 B1 JP3035278 B1 JP 3035278B1 JP 10310747 A JP10310747 A JP 10310747A JP 31074798 A JP31074798 A JP 31074798A JP 3035278 B1 JP3035278 B1 JP 3035278B1
- Authority
- JP
- Japan
- Prior art keywords
- groove
- vertical main
- tire
- curved portion
- width
- 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 - Lifetime
Links
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- Tires In General (AREA)
Abstract
【要約】
【課題】 耐摩耗性能を損なうことなくウエット性能を
向上する。
【解決手段】 トレッド巾TWをタイヤの呼び巾Wの8
0%以上、かつシー比を35%以下とする。トレッド部
2に、タイヤ赤道C上をのびる中央の縦主溝3と、その
両側の外の縦主溝4とを配する。外の縦主溝4から中央
の縦主溝3に達しないラグ溝7を設ける。ラグ溝7は、
外の縦主溝4との交わり部においてタイヤ周方向に対す
る傾斜角度αが30〜50゜かつ該傾斜角度を漸減しつ
つ湾曲してのびる湾曲部7aと、この湾曲部7aに連な
る直線部7bとを含む。湾曲部7aは、溝幅が縦主溝の
60〜80%の第1の湾曲部7a1と、溝幅が縦主溝の
25%以上かつ60%よりも小の第2の湾曲部7a2と
を含む。直線部7bの溝幅は、縦主溝の25%以下、か
つ溝深さを第1の湾曲部の溝深さよりも小とする。Abstract: PROBLEM TO BE SOLVED: To improve wet performance without deteriorating wear resistance performance. SOLUTION: The tread width TW is set to 8 of the nominal width W of the tire.
0% or more and the sea ratio is 35% or less. The tread portion 2 is provided with a central vertical main groove 3 extending on the tire equator C and outer vertical main grooves 4 on both sides thereof. A lug groove 7 that does not reach the central vertical main groove 3 from the outer vertical main groove 4 is provided. The lug groove 7
At the intersection with the outer vertical main groove 4, the inclination angle α with respect to the tire circumferential direction is 30 to 50 °, and the curved part 7 a is curved while gradually decreasing the inclination angle, and the straight part 7 b connected to the curved part 7 a. including. The curved portion 7a includes a first curved portion 7a1 having a groove width of 60 to 80% of the vertical main groove and a second curved portion 7a2 having a groove width of 25% or more of the vertical main groove and smaller than 60%. Including. The groove width of the straight portion 7b is 25% or less of the vertical main groove, and the groove depth is smaller than the groove depth of the first curved portion.
Description
【0001】[0001]
【発明の属する技術分野】本発明は、耐摩耗性能を損な
うことなくウエット性能を向上しうる空気入りタイヤに
関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pneumatic tire capable of improving wet performance without deteriorating wear resistance.
【0002】[0002]
【従来の技術および発明が解決しようとする課題】空気
入りタイヤにおいて、ウエット性能の向上は重要な課題
の一つである。一般に、ウエット性能の向上には、トレ
ッド面にタイヤ周方向に直線状でのびるいわゆる縦主溝
を配置することが効果的である。とりわけ最も接地圧が
高くかつ接地長さが大となるタイヤ赤道上に縦主溝を配
することが効果的であり、これにより、路面の水膜は走
行方向後方へと排水される。2. Description of the Related Art In a pneumatic tire, improvement of wet performance is one of important issues. Generally, to improve wet performance, it is effective to arrange a so-called vertical main groove extending linearly in the tire circumferential direction on the tread surface. In particular, it is effective to arrange the vertical main groove on the tire equator where the contact pressure is the highest and the contact length is the largest, whereby the water film on the road surface is drained backward in the traveling direction.
【0003】またウエット性能をさらに向上させるため
には、前記縦主溝に加えて、この縦主溝と交わる向きに
のびるラグ溝などを配し、路面との間の水膜をトレッド
端側へと排水することも必要である。In order to further improve the wet performance, a lug groove extending in a direction intersecting with the vertical main groove is arranged in addition to the vertical main groove, and a water film between the road surface and the road surface is directed toward the tread end. It is also necessary to drain.
【0004】このようにして縦主溝、ラグ溝などを配置
すると、全トレッド面積に占める全溝面積の割合である
シー比が大きくなっていき、ウエット性能の向上は期待
しうるものの、一般にトレッド部の早期摩耗を引き起こ
すなど、耐摩耗性が低下するという問題がある。When the vertical main grooves, lug grooves, etc. are arranged in this manner, the sea ratio, which is the ratio of the total groove area to the total tread area, increases, and although improvement in wet performance can be expected, the tread is generally improved. There is a problem that wear resistance is lowered, for example, causing early wear of the part.
【0005】本発明は、このような問題点に鑑み案出な
されたもので、トレッド面に形成される溝のとりわけラ
グ溝の形状、溝深さなどを限定することを基本として、
耐摩耗性能を損なうことなくウエット性能を向上しうる
空気入りタイヤを提供することを目的としている。The present invention has been devised in view of the above problems, and is based on limiting the shape of the grooves formed on the tread surface, particularly the shape and depth of the lug grooves.
An object of the present invention is to provide a pneumatic tire capable of improving wet performance without deteriorating wear resistance.
【0006】[0006]
【課題を解決するための手段】本発明のうち請求項1記
載の発明は、トレッド端間のタイヤ軸方向距離であるト
レッド巾TWが、タイヤの呼び巾Wの80%以上、かつ
該トレッド端間の全トレッド面積に占める全溝面積の割
合であるシー比が35%以下であり、かつトレッド部
に、タイヤ赤道上を直線状にのびる1本の中央の縦主溝
と、その両側に少なくとも各1本がタイヤ周方向に直線
状でのびる外の縦主溝とを配して、前記中央の縦主溝と
前記外の縦主溝との間に内の陸部を形成するとともに、
前記内の陸部に、前記外の縦主溝から前記中央の縦主溝
に達することなくタイヤ軸方向内側にのびるラグ溝を設
け、かつ該ラグ溝は、前記外の縦主溝との交わり部にお
いてタイヤ周方向に対する傾斜角度が30〜50゜をな
しかつ該傾斜角度を漸減しつつタイヤ軸方向内側にのび
て湾曲する湾曲部と、この湾曲部に連なりタイヤ周方向
に沿って直線状にのびる直線部とを含み、しかも前記湾
曲部は、前記外の縦主溝側に位置しかつ溝幅が前記外の
縦主溝の溝幅の60〜80%、溝深さが前記外の縦主溝
の溝深さと略同一の第1の湾曲部と、この第1の湾曲部
に連なりかつ溝幅が前記外の縦主溝の溝幅の25%以上
かつ60%よりも小、溝深さが漸減して前記直線部へと
連なる第2の湾曲部とを有するとともに、前記直線部の
溝幅を前記外の縦主溝の溝幅の25%以下、かつ溝深さ
を前記縦主溝の溝深さの65%以下としてなる空気入り
タイヤである。According to the first aspect of the present invention, the tread width TW, which is the axial distance between the tread ends, is 80% or more of the nominal width W of the tire, and The sea ratio, which is the ratio of the total groove area to the total tread area between the tires, is 35% or less, and the tread portion has one central vertical main groove extending linearly on the tire equator, and Each one is provided with an outer vertical main groove extending linearly in the tire circumferential direction, and an inner land portion is formed between the central vertical main groove and the outer vertical main groove,
A lug groove extending in the tire axial direction from the outer vertical main groove to the center vertical main groove without reaching the central vertical main groove is provided on the inner land portion, and the lug groove intersects with the outer vertical main groove. A curved portion that forms an angle of 30 to 50 ° with respect to the tire circumferential direction and gradually extends inward in the tire axial direction while gradually decreasing the angle of inclination, and is linearly connected to the curved portion and along the tire circumferential direction. The curved portion is located on the outer vertical main groove side and has a groove width of 60 to 80% of the groove width of the outer vertical main groove, and a groove depth of the outer vertical main groove. A first curved portion having substantially the same groove depth as the main groove, and a groove width continuous with the first curved portion and having a groove width of 25% or more and smaller than 60% of the groove width of the outer vertical main groove; And a second curved portion connected to the linear portion by gradually decreasing the groove width of the linear portion. 25% of the groove width of the groove below, and a pneumatic tire comprising a 65% or less of the groove depth of the circumferential main groove depth.
【0007】また請求項2記載の発明は、前記ラグ溝
は、前記直線部の一端が、タイヤ周方向に隣り合うラグ
溝の前記湾曲部に連通することを特徴とする請求項1記
載の空気入りタイヤである。According to a second aspect of the present invention, the lug groove has one end of the linear portion communicating with the curved portion of the lug groove adjacent in the tire circumferential direction. It is a tire containing.
【0008】また請求項3記載の発明は、前記ラグ溝
は、前記第1の湾曲部の溝深さGD1が前記外の縦主溝
の溝深さと略同一であり、かつ前記第2の湾曲部の溝深
さが漸減して前記直線部へと連なり、しかも前記直線部
の溝深さが縦主溝の溝深さの70%以下である請求項1
又は2記載の空気入りタイヤである。According to a third aspect of the present invention, in the lug groove, the groove depth GD1 of the first curved portion is substantially the same as the groove depth of the outer vertical main groove, and the second curved portion is formed. The groove depth of the portion gradually decreases and continues to the straight portion, and the groove depth of the straight portion is 70% or less of the groove depth of the vertical main groove.
Or the pneumatic tire according to 2.
【0009】また請求項4記載の発明は、前記ラグ溝
は、前記第1の湾曲部のタイヤ周方向の長さLaが、ラ
グ溝のタイヤ周方向の長さLの0.5〜0.6倍、前記
第2の湾曲部のタイヤ周方向の長さLbが、前記長さL
の0.1〜0.2倍、前記直線部のタイヤ周方向の長さ
Lcが、前記長さLの0.2〜0.3倍である請求項1
乃至3のいずれかに記載の空気入りタイヤである。According to a fourth aspect of the present invention, in the lug groove, a length La of the first curved portion in the tire circumferential direction is 0.5 to 0. Six times, the length Lb of the second curved portion in the tire circumferential direction is equal to the length L.
The length Lc of the linear portion in the circumferential direction of the tire is 0.2 to 0.3 times the length L.
4. The pneumatic tire according to any one of claims 1 to 3.
【0010】また請求項5記載の発明は、前記内の陸部
は、タイヤ周方向で隣り合う前記ラグ溝間に、前記湾曲
部と同じ向きに傾いてのび該ラグ溝に達することなく終
端する第2のラグ溝と、前記湾曲部とは逆向きでタイヤ
周方向に対して40〜50゜の角度で傾いてのびるサイ
ピングとが設けられたことを特徴とする請求項1乃至3
のいずれかに記載の空気入りタイヤである。According to a fifth aspect of the present invention, the inner land portion extends between the lug grooves adjacent in the tire circumferential direction in the same direction as the curved portion and terminates without reaching the lug groove. 4. A lag groove, and a siping extending in a direction opposite to the curved portion and inclined at an angle of 40 to 50 degrees with respect to a tire circumferential direction, is provided.
A pneumatic tire according to any one of the above.
【0011】なお本明細書で用いる定義は次の通りであ
る。前記「トレッド端」とは、タイヤを正規リムにリム
組みしかつ正規内圧を充填するとともに最大負荷能力に
相当する質量を加えた状態で路面と接地するトレッド部
のタイヤ軸方向最外側の端縁をいう。ここで、タイヤが
乗用車用の場合には、上記測定条件に規格で定まる最大
負荷能力の88%に荷重を相当する質量を加えて測定す
る。The definitions used in this specification are as follows. The `` tread end '' is the outermost edge of the tread portion in the tire axial direction of the tread portion, which rims the tire to a regular rim, fills the regular internal pressure, and adds a mass corresponding to the maximum load capacity to a ground surface. Say. Here, when the tire is for a passenger car, the measurement is performed by adding the mass corresponding to the load to 88% of the maximum load capacity determined by the standard in the above measurement conditions.
【0012】また「正規リム」とは、タイヤが基づいて
いる規格を含む規格体系において、当該規格がタイヤ毎
に定めるリムであり、例えばJATMAであれば標準リ
ム、TRAであれば "Design Rim" 、或いはETRTO
であれば "Measuring Rim"となる。The "regular rim" is a rim defined for each tire in the standard system including the standard on which the tire is based. For example, a standard rim for JATMA and a "Design Rim" for TRA Or ETRTO
Then "Measuring Rim".
【0013】また、「正規内圧」とは、タイヤが基づい
ている規格を含む規格体系において、各規格がタイヤ毎
に定めている空気圧であり、JATMAであれば”最高
空気圧”、TRAであれば表 "TIRE LOAD LIMITS AT VA
RIOUS COLD INFLATION PRESSURES" に記載の最大値、E
TRTOであれば "INFLATION PRESSURE" であるが、タ
イヤが乗用車用である場合には180(kPa)とす
る。[0013] The "normal internal pressure" is the air pressure defined for each tire in the standard system including the standard on which the tire is based. Table "TIRE LOAD LIMITS AT VA"
RIOUS COLD INFLATION PRESSURES "
In the case of TRTO, it is "INFLATION PRESSURE", but when the tire is for a passenger car, it is 180 (kPa).
【0014】また、「タイヤの呼び巾」とは、規格体系
の中で定まるタイヤの呼び方において示される「断面幅
の呼び」であって、例えば「195/60R14 85
H」では195mmとなる。The "nominal width of the tire" is the "nominal of the cross-sectional width" indicated in the tire designation defined in the standard system, and is, for example, "195 / 60R1485".
H "is 195 mm.
【0015】[0015]
【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。本実施形態の空気入りタイヤは、ト
レッド端E、E間のタイヤ軸方向距離であるトレッド巾
TWが、タイヤの呼び巾Wの80%以上に設定される。
一般的に、トレッド巾は、前記タイヤの呼び巾Wの75
%程度ないしこれ以下に設定されており、本実施形態で
はトレッド巾TWをタイヤサイズに応じて相対的に大き
く設定し、接地面積の増大を図る。なおトレッド巾など
の定義は前記した通りであり、上限は例えば呼び巾Wの
95%程度とするが好ましい。DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. In the pneumatic tire of the present embodiment, the tread width TW, which is the axial distance between the tread ends E, E, is set to 80% or more of the nominal width W of the tire.
Generally, the tread width is 75 times the nominal width W of the tire.
% Or less, and in the present embodiment, the tread width TW is set relatively large according to the tire size to increase the contact area. The definition of the tread width and the like is as described above, and the upper limit is preferably set to, for example, about 95% of the nominal width W.
【0016】また本実施形態では、前記トレッド端E、
E間の全トレッド面積Sに占める全溝面積Sgの割合で
あるシー(sea)比(Sg/S)を35%以下に設定し
ている。一般的に、このシー比が大きくなると排水性が
高まりウエット性能が向上する反面、陸部の剛性が低下
して摩耗が促進されやすい欠点がある。表1には、標準
的なパターンの空気入りタイヤにおいて、呼び巾Wに対
するトレッド巾TWの割合、シー比、耐摩耗性能の関係
を示す。In this embodiment, the tread ends E,
The sea ratio (Sg / S), which is the ratio of the total groove area Sg to the total tread area S between E, is set to 35% or less. In general, when the sea ratio is increased, the drainage property is increased and the wet performance is improved, but there is a disadvantage that the rigidity of the land portion is reduced and wear is easily promoted. Table 1 shows the relationship between the ratio of the tread width TW to the nominal width W, the sea ratio, and the wear resistance of the pneumatic tire having the standard pattern.
【0017】[0017]
【表1】 [Table 1]
【0018】表1の如く、トレッド巾TWの呼び巾Wに
対する割合を増しかつシー比を35%まで減少させてい
くと、トレッド部の剛性が増し、耐摩耗性能を大幅に向
上させうる。このように本例では、接地面積の相対的な
増大とシー比の低減により、耐摩耗性能を向上させる。
なおシー比が小さすぎると、ウエット性能の向上が期待
できないため、シー比は、好ましくは25〜35%、よ
り好ましくは30〜35%とするのが望ましい。As shown in Table 1, when the ratio of the tread width TW to the nominal width W is increased and the sea ratio is reduced to 35%, the rigidity of the tread portion is increased, and the wear resistance can be greatly improved. As described above, in this example, the wear resistance is improved by a relative increase in the contact area and a reduction in the sea ratio.
If the sea ratio is too small, improvement in wet performance cannot be expected. Therefore, the sea ratio is preferably set to 25 to 35%, more preferably 30 to 35%.
【0019】次に、このようなシー比を構成する各溝に
ついて説明する。本例では、トレッド部2に、タイヤ赤
道C上を直線状にのびる1本の中央の縦主溝3と、その
両側で各1本がタイヤ周方向に直線状でのびる外の縦主
溝4、4とを配している。これにより、中央の縦主溝3
と外の縦主溝4との間に内の陸部5が、また前記外の縦
主溝4とトレッド端Eとの間に外の陸部6とがそれぞれ
形成される。Next, each groove constituting such a sea ratio will be described. In this example, the tread portion 2 includes one central vertical main groove 3 extending linearly on the tire equator C, and two outer vertical main grooves 4 each extending linearly in the tire circumferential direction on both sides thereof. , And 4. Thereby, the central vertical main groove 3
An inner land portion 5 is formed between the outer vertical main groove 4 and the outer vertical main groove 4, and an outer land portion 6 is formed between the outer vertical main groove 4 and the tread end E.
【0020】前記中央の縦主溝3、外の縦主溝4(以
下、単にそれぞれ「縦主溝3」、「縦主溝4」というこ
とがある。)は、タイヤ周方向に直線状で連続しての
び、タイヤ走行中の路面の水膜をタイヤ走行方向の後方
へと排出しうる。また直進走行時において、接地圧が高
くかつ接地長さが最長となるタイヤ赤道C上に縦主溝3
が位置するため、より効率の高い排水効果が得られる。The central vertical main groove 3 and the external vertical main groove 4 (hereinafter sometimes simply referred to as “vertical main groove 3” and “vertical main groove 4”, respectively) are linear in the tire circumferential direction. It is possible to continuously extend and discharge the water film on the road surface during tire running backward in the tire running direction. When the vehicle travels straight, the vertical main groove 3 is located on the tire equator C where the contact pressure is high and the contact length is the longest.
, A more efficient drainage effect can be obtained.
【0021】またこれらの縦主溝3、4の溝幅GWは、
排水効果をより確実に高めるべく、好ましくは前記トレ
ッド巾TWの2.5%以上、好ましくは3%以上、より
好ましくは4%以上とすることが望ましい。なお溝幅の
上限は、前記シー比との兼ね合いにより適宜定められ
る。さらに、縦主溝3、4は互いに同一の溝幅であって
もまた異ならせても良い。The groove width GW of these vertical main grooves 3 and 4 is
In order to more reliably increase the drainage effect, it is desirable that the width is 2.5% or more, preferably 3% or more, more preferably 4% or more of the tread width TW. Note that the upper limit of the groove width is appropriately determined in consideration of the above-mentioned sea ratio. Further, the vertical main grooves 3 and 4 may have the same groove width or may have different groove widths.
【0022】本実施形態では、ウエット性能を向上する
べく、前記内の陸部5に、外の縦主溝4から中央の縦主
溝3に達することなくタイヤ軸方向内側にのびるラグ溝
7を、また前記外の陸部6に、前記縦主溝4とトレッド
端Eとを継ぐショルダ溝9を設けたものを例示する。In this embodiment, in order to improve the wet performance, a lug groove 7 extending in the tire axial direction inward from the outer vertical main groove 4 without reaching the central vertical main groove 3 is provided in the inner land portion 5. In addition, an example in which the outer land portion 6 is provided with a shoulder groove 9 that connects the vertical main groove 4 and the tread end E is illustrated.
【0023】前記ラグ溝7は、本例では湾曲部7aと直
線部7bとから構成される。前記湾曲部7aは、前記外
の縦主溝4との交わり部においてタイヤ周方向に対する
傾斜角度αが30〜50゜をなしかつ該傾斜角度を漸減
しつつ本例では実質的に0゜になるまでタイヤ軸方向内
側にのびて湾曲しているものを例示している。The lug groove 7 comprises a curved portion 7a and a straight portion 7b in this embodiment. The curved portion 7a has an inclination angle α of 30 to 50 ° with respect to the tire circumferential direction at the intersection with the outer vertical main groove 4 and becomes substantially 0 ° in this example while gradually decreasing the inclination angle α. It is illustrated that it extends to the inside in the tire axial direction and is curved.
【0024】また前記直線部7bは、前記湾曲部7aの
端部に連なりタイヤ周方向に沿って直線状にのびて形成
されるものを示す。またこの直線部7bは、本例ではタ
イヤ周方向に隣り合う他のラグ溝7の前記湾曲部7aに
連通するものを例示している。これにより、ラグ溝7
は、タイヤ周方向で連続する溝部分を、接地圧の高いタ
イヤ赤道Cの両側に形成しうる結果、排水効果をさらに
高め、ウエット性能をより一層向上させうる点で好まし
い。The straight portion 7b is formed so as to be continuous with the end of the curved portion 7a and to extend linearly along the tire circumferential direction. In this example, the linear portion 7b is illustrated as communicating with the curved portion 7a of another lug groove 7 adjacent in the tire circumferential direction. Thereby, the lug groove 7
Is preferable in that a groove portion continuous in the tire circumferential direction can be formed on both sides of the tire equator C having a high contact pressure, so that the drainage effect can be further enhanced and the wet performance can be further improved.
【0025】前記湾曲部7aは、本例では第1の湾曲部
7a1と第2の湾曲部7a2とを含む。The bending portion 7a includes a first bending portion 7a1 and a second bending portion 7a2 in this example.
【0026】前記第1の湾曲部7a1は、外の縦主溝4
側に位置しかつ溝幅GW1が前記外の縦主溝4の溝幅G
Wの60〜80%にて形成される。前記溝幅GW1が、
縦主溝4の溝幅GWの60%未満では十分な排水容積を
確保できず、逆に80%を超えるとトレッド剛性が低下
し偏摩耗が生じやすくなる。なお本例の第1の湾曲部7
a1は、外の縦主溝4から溝幅が徐々に増して再び減少
する中膨らみ状をなすものを例示している。The first curved portion 7a1 is provided with the outer vertical main groove 4
And the groove width GW1 is the groove width G of the outer vertical main groove 4.
It is formed at 60 to 80% of W. The groove width GW1 is
If the groove width GW of the vertical main groove 4 is less than 60%, a sufficient drainage volume cannot be secured, and if it exceeds 80%, the tread rigidity is reduced and uneven wear is likely to occur. In addition, the first bending portion 7 of the present example
a1 exemplifies a medium bulge in which the groove width gradually increases from the outer vertical main groove 4 and decreases again.
【0027】図2には、ラグ溝7の溝中心線に沿った断
面図を示している。本例の第1の湾曲部7a1の溝深さ
GD1は、前記外の縦主溝4の溝深さと略同一で形成さ
れているものを示す。これにより排水容積を増大しう
る。FIG. 2 is a sectional view of the lug groove 7 taken along a groove center line. The groove depth GD1 of the first curved portion 7a1 of the present example is formed to be substantially the same as the groove depth of the outer vertical main groove 4. This can increase drainage volume.
【0028】次に、第2の湾曲部7a2は、前記第1の
湾曲部7a1に連なりかつ溝幅GW2が前記外の縦主溝
3の溝幅GWの25%以上かつ60%よりも小で形成さ
れる。本例では、図1の如く溝幅GW2は直線部7bに
向かって漸減するものを例示している。これにより、接
地圧が高いクラウン側の剛性低下を抑制する。また図2
の如く、第2の湾曲部7a2の溝深さGD2は、本例で
は直線部7bに向かって漸減して前記直線部7bの溝底
へと滑らかに連なるものを例示している。Next, the second curved portion 7a2 is continuous with the first curved portion 7a1 and has a groove width GW2 of at least 25% and less than 60% of the groove width GW of the outer vertical main groove 3. It is formed. In this example, the groove width GW2 gradually decreases toward the linear portion 7b as shown in FIG. This suppresses a decrease in rigidity on the crown side where the contact pressure is high. FIG. 2
In this example, the groove depth GD2 of the second curved portion 7a2 gradually decreases toward the straight portion 7b and smoothly extends to the groove bottom of the straight portion 7b.
【0029】また前記直線部7bは、その溝幅GW3を
前記外の縦主溝4の溝幅GWの25%以下としており、
本例では等幅で形成されているものを示す。ただし、漸
減しても良い。また直線部7bの溝深さGD3は、前記
第1の湾曲部7a1の溝深さGD1よりも小、本例では
前記縦主溝4の溝深さGWの70%以下としており、好
ましくは60〜70%とする。このとき、等深さでも良
く、また漸変しても良い。The linear portion 7b has a groove width GW3 of 25% or less of the groove width GW of the outer vertical main groove 4,
In the present example, the one formed with the same width is shown. However, it may be gradually reduced. Further, the groove depth GD3 of the linear portion 7b is smaller than the groove depth GD1 of the first curved portion 7a1, and in this example, is 70% or less of the groove depth GW of the vertical main groove 4, and is preferably 60 or less. To 70%. At this time, the depth may be equal or may be gradually changed.
【0030】なお直線部7bは、その溝中心線が、前記
内の陸部5を巾方向に2等分する区分線Nよりもタイヤ
軸方向の内側に位置するのが望ましい。これによって、
接地圧の高いクラウン側からより効率的に水膜を排出す
ることができる。It is desirable that the center of the groove of the straight portion 7b is located on the inner side in the tire axial direction than the dividing line N which bisects the inner land portion 5 in the width direction. by this,
The water film can be more efficiently discharged from the crown side having a high ground pressure.
【0031】このようなラグ溝7は、タイヤ周方向と平
行な直線部7b、これに滑らかに連なる第2の湾曲部7
a2、さらに縦主溝4と30〜50゜の角度αで交わる
第1の湾曲部7a1とを具えるため、トレッド中央部の
水膜を円滑に外の縦主溝4へと導くことが可能となり、
ウエット性能が向上される。ここで、このような直線部
7bが形成されていない場合、また外の縦主溝4と湾曲
部7aとの交わり角度が50゜を超える場合、さらには
湾曲部7aの傾斜角度変化が滑らかに行われない場合に
は、いずれも外の縦主溝4へと流れる排水にエネルギ損
失が生じ、排水効果が低下してしまう。なお前記外の縦
主溝4と湾曲部7aとの交わり部での前記角度αは、好
ましくは40〜50゜、より好ましくは42〜48゜と
するのが望ましく、本例では約45゜としている。The lug groove 7 has a straight portion 7b parallel to the tire circumferential direction and a second curved portion 7 smoothly connected to the straight portion 7b.
a2, and further comprising the first curved portion 7a1 intersecting the vertical main groove 4 at an angle α of 30 to 50 °, it is possible to smoothly guide the water film in the central portion of the tread to the outer vertical main groove 4. Becomes
The wet performance is improved. Here, when such a straight portion 7b is not formed, or when the intersection angle between the outer vertical main groove 4 and the curved portion 7a exceeds 50 °, furthermore, the inclination angle of the curved portion 7a changes smoothly. If this is not done, the drainage flowing to the outer vertical main groove 4 will have an energy loss, and the drainage effect will be reduced. The angle α at the intersection of the outer vertical main groove 4 and the curved portion 7a is preferably 40 to 50 °, more preferably 42 to 48 °, and is approximately 45 ° in this example. I have.
【0032】なお、本例では直線部7aは、前記中央の
縦主溝3との間に小巾のリブ部10を形成するが、この
リブ部10は車両旋回中などにおいて容易に変形しがち
となる。本実施形態では、上述の通り、ラグ溝7におい
て直線部7bの溝幅GW3および溝深さGD3を最も小
で形成することにより、このようなリブ部10の著しい
剛性低下を抑制し偏摩耗なども好適に防止しうる。また
湾曲部7aにおいては、溝深さが徐々に増しかつ第1の
湾曲部7a1では縦主溝3の溝深さと略同一の溝深さG
D1を実現しているため、トータル的な溝容積は十分に
確保され、ウエット性能低下の虞もない。In this embodiment, the straight portion 7a has a small-width rib portion 10 formed between the straight portion 7a and the central vertical main groove 3. However, this rib portion 10 tends to be easily deformed during turning of the vehicle. Becomes In the present embodiment, as described above, by forming the groove width GW3 and the groove depth GD3 of the linear portion 7b in the lug groove 7 to be the smallest, it is possible to suppress such a significant decrease in the rigidity of the rib portion 10 and to reduce uneven wear. Can also be suitably prevented. In the curved portion 7a, the groove depth gradually increases, and in the first curved portion 7a1, the groove depth G is substantially the same as the groove depth of the vertical main groove 3.
Since D1 is realized, the total groove volume is sufficiently ensured, and there is no danger of a decrease in wet performance.
【0033】また本例の第2の湾曲部7a2では、直線
部7bの溝深さGD3と第1の湾曲部7a1との溝深さ
GD1の違いを自らの溝深さGD2を漸次変化させて継
ぐことにより、この溝深さの相違に基づく剛性変化を滑
らかに行ないうる結果、耐摩耗性能などを良好に維持す
ることができる。In the second curved portion 7a2 of this embodiment, the difference between the groove depth GD3 of the straight portion 7b and the groove depth GD1 of the first curved portion 7a1 is determined by gradually changing the groove depth GD2 of the straight portion 7b1. By joining, it is possible to smoothly change the rigidity based on the difference in the groove depth, and it is possible to maintain good wear resistance performance and the like.
【0034】このようなラグ溝7は、前記第1の湾曲部
7a1のタイヤ周方向の長さLaが、ラグ溝のタイヤ周
方向の長さLの0.5〜0.6倍であることが望まし
い。また、第2の湾曲部7a2のタイヤ周方向の長さL
bは、前記長さLの0.1〜0.2倍、前記直線部7b
のタイヤ周方向の長さLcは、前記長さLの0.2〜
0.3倍とすることが特に好ましい。In such a lug groove 7, the length La of the first curved portion 7a1 in the tire circumferential direction is 0.5 to 0.6 times the length L of the lug groove in the tire circumferential direction. Is desirable. Also, the length L of the second curved portion 7a2 in the tire circumferential direction.
b is 0.1 to 0.2 times the length L, and the linear portion 7b
The length Lc of the tire in the circumferential direction is 0.2 to 0.2 of the length L.
It is particularly preferable to set it to 0.3 times.
【0035】なお本例では、前記内の陸部5は、タイヤ
周方向で隣り合う前記ラグ溝7、7間に、前記湾曲部7
aと同じ向きに傾いてのび該ラグ溝7に達することなく
終端する第2のラグ溝11と、前記湾曲部7aとは逆向
きでタイヤ周方向に対して40〜50゜の角度で傾いて
のびるサイピングSとを設けたものを例示している。ま
た一つのラグ溝7の直線部7bと、他のラグ溝7の湾曲
部7aとの連通部の近傍には、中央の縦主溝3に向けて
のびかつ該縦主溝3に達することなく終端する第3のラ
グ溝12を設けたものを例示する。この第3のラグ溝1
2も、前記ラグ溝7とは逆向きでのび、例えばタイヤ周
方向に対して40〜60゜程度の傾斜で形成されてい
る。In this embodiment, the inner land portion 5 is provided between the lug grooves 7 adjacent in the tire circumferential direction.
a second lug groove 11 which is inclined in the same direction as a and extends without reaching the lug groove 7, and the second lug groove 11 is inclined in a direction opposite to the tire circumferential direction at an angle of 40 to 50 ° with respect to the tire circumferential direction. The example provided with the extending siping S is illustrated. In the vicinity of the communicating portion between the straight portion 7b of one lug groove 7 and the curved portion 7a of the other lug groove 7, it extends toward the central vertical main groove 3 and does not reach the vertical main groove 3. An example in which a third lug groove 12 that terminates is provided is illustrated. This third lug groove 1
2 also extends in the opposite direction to the lug groove 7, and is formed, for example, at an inclination of about 40 to 60 ° with respect to the tire circumferential direction.
【0036】このような第2、第3のラグ溝11、1
2、サイピングSは、内の陸部5について剛性の指向性
を解消することができ、耐摩耗性をバランス良く向上す
ることができる。The second and third lug grooves 11, 1
2. The siping S can eliminate the rigidity directivity of the inner land portion 5 and can improve the wear resistance in a well-balanced manner.
【0037】前記ショルダ溝9は、本実施形態では、縦
主溝4からトレッド端Eへとのび、本例では溝幅が略等
幅をなす第1のショルダ溝9Aと、トレッド端Eに向け
て漸減する第2のショルダ溝9Bとを含み、かつこれら
をタイヤ周方向に交互に配したものを例示している。一
般に、旋回時などではトレッド端E側に大きな荷重が作
用するが、本例のようにショルダ溝9がトレッド端E側
に向けて溝幅が漸減する第2のショルダ溝9Bを含むこ
とにより、トレッド端E近傍の剛性低下を防止すること
ができ、この部分での耐摩耗性をも向上しうる。なおこ
のようなショルダ溝9は、任意であって、この外の陸部
6をリブ状に形成することでも良い。また外の陸部6に
適宜サイピングなどを設けることもできる。In the present embodiment, the shoulder groove 9 extends from the vertical main groove 4 to the tread end E. In the present embodiment, the shoulder groove 9 is directed to the first shoulder groove 9A having a substantially equal groove width and the tread end E. And a second shoulder groove 9 </ b> B that gradually decreases in the tire circumferential direction. Generally, a large load acts on the tread end E side during turning or the like. However, by including the second shoulder groove 9B in which the groove width gradually decreases toward the tread end E side as in this example, A decrease in rigidity in the vicinity of the tread end E can be prevented, and wear resistance at this portion can also be improved. Such a shoulder groove 9 is optional, and the outer land portion 6 may be formed in a rib shape. Also, a siping or the like may be provided on the outer land portion 6 as appropriate.
【0038】本発明の実施の一形態では、図示のパター
ンが点対称のパターンで形成されているが、タイヤ赤道
Cを中心とする左右対称パターンにも形成しうる。この
場合、ラグ溝7が前記直線部7bから接地するように回
転方向を定めた方向性パターンの空気入りタイヤとして
好ましく実施しうる。またこの左右対称パターンにおい
て、タイヤ赤道の各側をタイヤ周方向にシフトさせたパ
ターンシフトなども採用でき、本発明は種々の態様に変
形しうる。また本例ではタイヤ周方向に隣り合うラグ溝
7は、互いに連通するものを例示したが、連通すること
なく互いに分離していても良い。In the embodiment of the present invention, the illustrated pattern is formed as a point-symmetric pattern, but may be formed as a left-right symmetric pattern centered on the tire equator C. In this case, the present invention can be preferably implemented as a pneumatic tire having a directional pattern in which the rotation direction is determined so that the lug groove 7 comes into contact with the straight portion 7b. In this symmetric pattern, a pattern shift in which each side of the tire equator is shifted in the tire circumferential direction can be adopted, and the present invention can be modified into various modes. In this example, the lug grooves 7 adjacent in the tire circumferential direction are illustrated as communicating with each other, but may be separated from each other without communicating.
【0039】[0039]
【実施例】タイヤサイズが205/65R15 94H
であり、図1に示す基本パターンをなす乗用車用の空気
入りラジアルタイヤ(実施例、比較例)を試作し、ウエ
ット性能、耐摩耗性能についてテストを行った。テスト
方法は次の通りである。[Example] Tire size is 205 / 65R15 94H
Pneumatic radial tires for passenger cars (Examples and Comparative Examples) having the basic pattern shown in FIG. 1 were prototyped and tested for wet performance and wear resistance. The test method is as follows.
【0040】(1)ウエット性能(ハイドロプレーニン
グテスト) 半径100mのアスファルト路面に、水深5mm、長さ2
0mの水たまりを設けたコース上を、速度を段階的に増
加させながら前記車両を進入させ、横加速度(横G)を
計測し、50〜80km/hの速度における前輪の平均横
Gを算出した。結果は、比較例を100とする指数で表
示し数値が大きい程良好である。(1) Wet performance (hydroplaning test) On an asphalt road surface with a radius of 100 m, a water depth of 5 mm and a length of 2
The vehicle was entered on a course provided with puddles of 0 m while gradually increasing the speed, the lateral acceleration (lateral G) was measured, and the average lateral G of the front wheels at a speed of 50 to 80 km / h was calculated. . The results are indicated by an index with the comparative example being 100, and the larger the numerical value, the better.
【0041】(2)耐摩耗性能 供試タイヤを6JJのリムにリム組みしかつ内圧200
kPaを充填するとともに、これを排気量3000cc
の国産乗用車の全輪に装着してテストコース(高速道路
タイプ50%、一般路タイプ35%、山岳路タイプ15
%)を8000km走行後、中央の縦主溝の溝深さを測定
し、比較例1を100とする指数で表示した。数値が大
きい程、耐摩耗性が高く良好である。テストの結果など
を表2に示す。(2) Wear resistance The test tire was assembled on a 6JJ rim and the internal pressure was 200
kPa and a displacement of 3000cc
Test course (50% for highway type, 35% for general road type, 15% for mountain road type)
%) After traveling 8000 km, the groove depth of the central vertical main groove was measured, and was indicated by an index with Comparative Example 1 being 100. The higher the numerical value, the higher and better the abrasion resistance. Table 2 shows the test results and the like.
【0042】[0042]
【表2】 [Table 2]
【0043】テストの結果、実施例のものは、比較例に
比べてウエット性能、耐摩耗性能をバランス良く向上し
ていることが判る。As a result of the test, it can be seen that the example of the present invention has a better balance of wet performance and abrasion resistance than the comparative example.
【0044】[0044]
【発明の効果】上述したように、本発明の空気入りタイ
ヤは、耐摩耗性能を損なうことなくウエット性能を向上
しうる。As described above, the pneumatic tire of the present invention can improve the wet performance without deteriorating the wear resistance.
【図1】本発明の実施の一形態を示すトレッド部の展開
図である。FIG. 1 is a development view of a tread portion showing one embodiment of the present invention.
【図2】ラグ溝の溝中心線に沿った部分断面図である。FIG. 2 is a partial sectional view taken along a groove center line of a lug groove.
【符号の説明】 2 トレッド部 3 中央の縦主溝 4 外の縦主溝 5 内の陸部 6 外の陸部 7 ラグ溝 7a 湾曲部 7a1 第1の湾曲部 7a2 第2の湾曲部 7b 直線部[Description of Signs] 2 Tread part 3 Central vertical main groove 4 Outside vertical main groove 5 Land part inside 6 Land part outside 7 Lug groove 7a Curved part 7a1 First curved part 7a2 Second curved part 7b Straight line Department
───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.7 識別記号 FI B60C 11/08 A (58)調査した分野(Int.Cl.7,DB名) B60C 11/04 - 11/12 ──────────────────────────────────────────────────の Continuation of the front page (51) Int.Cl. 7 identification code FI B60C 11/08 A (58) Investigated field (Int.Cl. 7 , DB name) B60C 11/04-11/12
Claims (5)
レッド巾TWが、タイヤの呼び巾Wの80%以上、かつ
該トレッド端間の全トレッド面積に占める全溝面積の割
合であるシー比が35%以下であり、 かつトレッド部に、タイヤ赤道上を直線状にのびる1本
の中央の縦主溝と、その両側で少なくとも各1本がタイ
ヤ周方向に直線状でのびる外の縦主溝とを配して、前記
中央の縦主溝と前記外の縦主溝との間に内の陸部を形成
するとともに、 前記内の陸部に、前記外の縦主溝から前記中央の縦主溝
に達することなくタイヤ軸方向内側にのびるラグ溝を設
け、 かつ該ラグ溝は、前記外の縦主溝との交わり部において
タイヤ周方向に対する傾斜角度が30〜50゜をなしか
つ該傾斜角度を漸減しつつタイヤ軸方向内側にのびて湾
曲する湾曲部と、この湾曲部に連なりタイヤ周方向に沿
って直線状にのびる直線部とを含み、 しかも前記湾曲部は、前記外の縦主溝側に位置しかつ溝
幅が前記外の縦主溝の溝幅の60〜80%の第1の湾曲
部と、 この第1の湾曲部に連なりかつ溝幅が前記外の縦主溝の
溝幅の25%以上かつ60%よりも小の第2の湾曲部と
を有するとともに、 前記直線部の溝幅を前記外の縦主溝の溝幅の25%以
下、かつ溝深さを前記第1の湾曲部よりも小としてなる
空気入りタイヤ。1. A seat ratio in which a tread width TW, which is a distance in the tire axial direction between tread ends, is 80% or more of a nominal width W of a tire and a ratio of a total groove area to a total tread area between the tread ends. Is not more than 35%, and at the tread portion, one central vertical groove extending linearly on the tire equator, and at least one of the outer vertical grooves extending linearly in the tire circumferential direction on both sides thereof. And arranging a groove to form an inner land portion between the central vertical main groove and the outer vertical main groove, and, on the inner land portion, from the outer vertical main groove to the central land portion. A lug groove extending in the tire axial direction without reaching the vertical main groove is provided, and the lug groove has an inclination angle of 30 to 50 ° with respect to the tire circumferential direction at an intersection with the outer vertical main groove, and A curved section that gradually extends inward in the tire axial direction and curves while gradually decreasing the inclination angle A linear portion that is continuous with the curved portion and extends linearly along the tire circumferential direction, and the curved portion is located on the outer vertical main groove side and has a groove width of the outer vertical main groove. A first curved portion having a width of 60 to 80%, and a second curved portion connected to the first curved portion and having a groove width of 25% or more and smaller than 60% of the groove width of the outer vertical main groove. And a groove width of the linear portion is 25% or less of a groove width of the outer vertical main groove, and a groove depth is smaller than that of the first curved portion.
ヤ周方向に隣り合うラグ溝の前記湾曲部に連通すること
を特徴とする請求項1記載の空気入りタイヤ。2. The pneumatic tire according to claim 1, wherein one end of the linear portion of the lug groove communicates with the curved portion of the lug groove adjacent in the tire circumferential direction.
GD1が前記外の縦主溝の溝深さと略同一であり、かつ
前記第2の湾曲部の溝深さが漸減して前記直線部へと連
なり、しかも前記直線部の溝深さが縦主溝の溝深さの7
0%以下である請求項1又は2記載の空気入りタイヤ。3. The lug groove, wherein a groove depth GD1 of the first curved portion is substantially equal to a groove depth of the outer vertical main groove, and a groove depth of the second curved portion is gradually reduced. To the straight part, and the groove depth of the straight part is 7 times the groove depth of the vertical main groove.
The pneumatic tire according to claim 1, wherein the content is 0% or less.
周方向の長さLaが、ラグ溝のタイヤ周方向の長さLの
0.5〜0.6倍、前記第2の湾曲部のタイヤ周方向の
長さLbが、前記長さLの0.1〜0.2倍、前記直線
部のタイヤ周方向の長さLcが、前記長さLの0.2〜
0.3倍である請求項1乃至3のいずれかに記載の空気
入りタイヤ。4. The lug groove, wherein the length La of the first curved portion in the circumferential direction of the tire is 0.5 to 0.6 times the length L of the lug groove in the circumferential direction of the tire, and The length Lb of the curved portion in the tire circumferential direction is 0.1 to 0.2 times the length L, and the length Lc of the straight portion in the tire circumferential direction is 0.2 to 0.2 times the length L.
The pneumatic tire according to any one of claims 1 to 3, wherein the ratio is 0.3 times.
前記ラグ溝間に、前記湾曲部と同じ向きに傾いてのび該
ラグ溝に達することなく終端する第2のラグ溝と、 前記湾曲部とは逆向きでタイヤ周方向に対して40〜5
0゜の角度で傾いてのびるサイピングとが設けられたこ
とを特徴とする請求項1乃至4のいずれかに記載の空気
入りタイヤ。5. The lug groove according to claim 1, wherein the inner land portion extends between the lug grooves adjacent to each other in the tire circumferential direction, extends in the same direction as the curved portion, and terminates without reaching the lug groove. 40 to 5 in the tire circumferential direction in the opposite direction to the curved portion
The pneumatic tire according to any one of claims 1 to 4, further comprising a siping inclined at an angle of 0 °.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10310747A JP3035278B1 (en) | 1998-10-30 | 1998-10-30 | Pneumatic tire |
DE69930481T DE69930481T2 (en) | 1998-10-30 | 1999-10-29 | vehicle tires |
US09/429,077 US6340040B1 (en) | 1998-10-30 | 1999-10-29 | Vehicle tire including main grooves and lug grooves |
EP99308605A EP0997323B1 (en) | 1998-10-30 | 1999-10-29 | Vehicle tyre |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10310747A JP3035278B1 (en) | 1998-10-30 | 1998-10-30 | Pneumatic tire |
Publications (2)
Publication Number | Publication Date |
---|---|
JP3035278B1 true JP3035278B1 (en) | 2000-04-24 |
JP2000135904A JP2000135904A (en) | 2000-05-16 |
Family
ID=18009006
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP10310747A Expired - Lifetime JP3035278B1 (en) | 1998-10-30 | 1998-10-30 | Pneumatic tire |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3035278B1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108928190A (en) * | 2017-05-29 | 2018-12-04 | 住友橡胶工业株式会社 | Tire |
Families Citing this family (18)
Publication number | Priority date | Publication date | Assignee | Title |
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JP4202824B2 (en) * | 2003-05-28 | 2008-12-24 | 住友ゴム工業株式会社 | Pneumatic tire |
JP4583846B2 (en) * | 2004-09-07 | 2010-11-17 | 株式会社ブリヂストン | Pneumatic tire |
US7861755B2 (en) | 2004-11-30 | 2011-01-04 | The Yokohama Rubber Co., Ltd. | Pneumatic tire with tread having middle rib, middle lateral grooves, assistant grooves and lateral narrow grooves |
DE602005023336D1 (en) * | 2004-11-30 | 2010-10-14 | Yokohama Rubber Co Ltd | TIRE |
EP2028025B1 (en) * | 2006-06-12 | 2011-10-19 | The Yokohama Rubber Co., Ltd. | Pneumatic tire |
JP2009051464A (en) * | 2007-08-29 | 2009-03-12 | Bridgestone Corp | Pneumatic tire |
JP4156018B1 (en) | 2007-12-12 | 2008-09-24 | 横浜ゴム株式会社 | Pneumatic tire |
JP4577455B1 (en) * | 2010-03-18 | 2010-11-10 | 横浜ゴム株式会社 | Pneumatic tire |
US9604506B2 (en) | 2010-08-05 | 2017-03-28 | Bridgestone Corporation | Tire |
JP5081289B2 (en) | 2010-11-05 | 2012-11-28 | 住友ゴム工業株式会社 | Pneumatic tire |
CN103596776B (en) * | 2011-07-22 | 2017-03-22 | 株式会社普利司通 | Pneumatic tire |
JP6097239B2 (en) * | 2014-03-12 | 2017-03-15 | 住友ゴム工業株式会社 | Pneumatic tire |
JP6393208B2 (en) * | 2015-02-16 | 2018-09-19 | 住友ゴム工業株式会社 | Pneumatic tire |
JP6467309B2 (en) | 2015-07-16 | 2019-02-13 | 住友ゴム工業株式会社 | Pneumatic tire |
JP6575649B2 (en) * | 2018-08-22 | 2019-09-18 | 住友ゴム工業株式会社 | Pneumatic tire |
JP6699791B1 (en) | 2019-09-27 | 2020-05-27 | 住友ゴム工業株式会社 | Pneumatic tire |
JP7375442B2 (en) * | 2019-10-08 | 2023-11-08 | 住友ゴム工業株式会社 | tire |
JP7375443B2 (en) * | 2019-10-08 | 2023-11-08 | 住友ゴム工業株式会社 | tire |
-
1998
- 1998-10-30 JP JP10310747A patent/JP3035278B1/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108928190A (en) * | 2017-05-29 | 2018-12-04 | 住友橡胶工业株式会社 | Tire |
CN108928190B (en) * | 2017-05-29 | 2022-05-13 | 住友橡胶工业株式会社 | Tyre for vehicle wheels |
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