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JPH0485105A - Radial tire for passenger car - Google Patents

Radial tire for passenger car

Info

Publication number
JPH0485105A
JPH0485105A JP2196560A JP19656090A JPH0485105A JP H0485105 A JPH0485105 A JP H0485105A JP 2196560 A JP2196560 A JP 2196560A JP 19656090 A JP19656090 A JP 19656090A JP H0485105 A JPH0485105 A JP H0485105A
Authority
JP
Japan
Prior art keywords
tread
rubber
buttress
tire
starting point
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.)
Granted
Application number
JP2196560A
Other languages
Japanese (ja)
Other versions
JP2892115B2 (en
Inventor
Moriyuki Io
守之 猪尾
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sumitomo Rubber Industries Ltd
Original Assignee
Sumitomo Rubber Industries Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Sumitomo Rubber Industries Ltd filed Critical Sumitomo Rubber Industries Ltd
Priority to JP2196560A priority Critical patent/JP2892115B2/en
Publication of JPH0485105A publication Critical patent/JPH0485105A/en
Application granted granted Critical
Publication of JP2892115B2 publication Critical patent/JP2892115B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

PURPOSE:To improve puncture resistance by providing an edging rib protrusively on the buttress surface of a lug groove end part, then extending tread rubber to the starting point of the edging rib so as to cover side wall rubber, and providing a band layer from the specified position of the edging rib starting end part so as to cover a belt layer. CONSTITUTION:The end part of a buttress part 3 is provided with a slightly elevated edging rib 12 extended circumferentially, and tread rubber 13 is extended from a tread part 2 as far as outside the buttress part 3 so as to be disposed to cover side wall rubber 14, being bounded by a boundary face M inclined obliquely to the radial direction between a position underneath the starting point of the edging rib 12 and the end part H of a belt layer 9. The belt layer 9 is then provided with a band layer 15, formed of plural plies made of inorganic fiber cords such as nylon buried into topping rubber, disposed along the boundary face M from a position, spaced by the distance 3mm-7mm from the starting point F of the edging rib 12, as an origin.

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、耐パンク性を高めた乗用車用ラジアルタイヤ
に関する。
DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a radial tire for passenger cars with improved puncture resistance.

【従来の技術〕[Conventional technology]

近年、乗用車にあっても一般道路以外のいわゆるオフロ
ード走行を可能とした車両が増加しつつある。このよう
な車両に用いるタイヤにあっては、バットレス部Sは、
第5図に示すようにオンロード走行用と同様にトレッド
ゴムaの外側にサイドウオールゴムbが重なるいわゆる
サイドウオールオーバトレッド(SOT)構造によって
形成し、両ゴム間の接合強度を高め、しかもグリップ力
を高めるため、トレッド溝を深くしていた。従ってバッ
トレス部にのびるラグ溝gについてもオンロード走行を
専用とする通常のタイヤに比べて広巾かつ深溝に形成さ
れる。
In recent years, an increasing number of passenger cars are capable of driving on so-called off-road roads other than on general roads. In tires used for such vehicles, the buttress portion S is
As shown in Figure 5, it is formed using a so-called sidewall over tread (SOT) structure in which sidewall rubber b overlaps the outside of tread rubber a, similar to that used for on-road driving, increasing the bonding strength between both rubbers and providing grip. The tread grooves were deepened to increase power. Therefore, the lug grooves (g) extending in the buttress portion are also formed to be wider and deeper than those of ordinary tires designed exclusively for on-road driving.

〔発明が解決しようとする課題〕[Problem to be solved by the invention]

しかし、オフロード走行する際には、前記ラグ溝gに石
嗜みが生じ易く、その結果、バフ)レス部Sに亀裂が生
じタイヤがバンクするという問題がある。
However, when driving off-road, the lug grooves g tend to become stoney, and as a result, cracks occur in the buff-less portions S, causing the tire to bank.

なお耐パンク性を高めるため、バッドレス部Sにおいて
、ラグ溝底eにおけるゴム厚みtを厚くすることが考え
られるが、ゴム厚みtを厚くすることによりトレッド部
はその略全域に亘って厚肉となり、タイヤ重量が増しか
つコスト高となる。
In order to improve puncture resistance, it is conceivable to increase the rubber thickness t at the lug groove bottom e in the buttress portion S, but by increasing the rubber thickness t, the tread portion becomes thick over almost the entire area. , the weight of the tire increases and the cost increases.

発明者は、タイヤ重量を増加させることなく耐パンク性
を高めるべく鋭意研究の結果、バットレス部において従
来の構造とは逆にショルダーゴムの外側に硬質のゴムか
らなるトレッドゴムを重ね合わせるいわゆるトレッドオ
ーバサイドウオール(TO3)構造とすることによりラ
グ溝部のゴム硬さを高めるとともに、それに加えて両ゴ
ムの境界に位置して補強層を介在させることにより、バ
ットレス部の閘性を高め、耐衝撃性に優れ耐パンク性を
高めうろことを見出したのである。
As a result of intensive research to improve tire puncture resistance without increasing the weight of the tire, the inventor developed a so-called tread overlay in which tread rubber made of hard rubber is layered on the outside of shoulder rubber in the buttress section, contrary to the conventional structure. The sidewall (TO3) structure increases the hardness of the rubber in the lug groove, and in addition, by interposing a reinforcing layer at the boundary between both rubbers, the locking properties of the buttress part are increased and impact resistance is increased. They discovered scales that have excellent puncture resistance.

本発明は、トレッドゴムが縁飾りリブ表面の始点とベル
ト層端部とを結ぶ境界面を介してサイドウオールゴムを
覆いしかも境界面に沿うバンド層を設けることを基本と
してラグ溝の溝底部の耐衝撃性を高め、耐パンク性を向
上しうる乗用車用ラジアルタイヤの提供を目的としてい
る。
The present invention is based on the fact that the tread rubber covers the sidewall rubber through the boundary surface connecting the starting point of the edge rib surface and the end of the belt layer, and also provides a band layer along the boundary surface. The objective is to provide a radial tire for passenger cars that has improved impact resistance and puncture resistance.

〔課題を解決するための手段〕[Means to solve the problem]

本発明は、トレッド部からバットレス部、サイドウオー
ル部を遺りビード部のビードコアの周りを折返すカーカ
スと、トレッド部の内部かつカーカスの外側に配される
ベルト層とを具え、前記トレッド部両側のラグ溝のバッ
トレス端部に、バフトレス表面から隆起しかつ円周方向
にのびる小高さの縁飾りリブを形成するとともに、トレ
ッド部外側のトレッドゴムは、前記縁飾りリブの表面の
始点と前記ベルト層のタイヤ軸方向端部とを結ぶ半径方
向に対して斜めの境界面を介してサイドウオール部外側
からのびかつ該トレッドゴムよりも軟質のサイドウオー
ルゴムを覆うとともに、前記始点からタイヤ軸方向内方
に3W以上かっ7■以下の距離を隔てる位置を起点とし
て前記境界面に沿い前記ベルト層にのびかつ有機繊維コ
ードを用いたバンド層を配してなる乗用車用ラジアルタ
イヤである。
The present invention includes a carcass that leaves a tread portion, a buttress portion and a sidewall portion, and folds around a bead core of a bead portion, and a belt layer disposed inside the tread portion and outside the carcass, and a belt layer provided on both sides of the tread portion. At the end of the buttress of the lug groove, a small-height edging rib is formed that protrudes from the buff tress surface and extends in the circumferential direction, and the tread rubber on the outside of the tread portion is formed between the starting point of the surface of the edging rib and the belt. The layer extends from the outside of the sidewall portion through a boundary surface oblique to the radial direction connecting the axial end of the tire and covers the sidewall rubber that is softer than the tread rubber, and extends from the starting point in the axial direction of the tire. This radial tire for a passenger car is provided with a band layer made of an organic fiber cord and extending along the boundary surface to the belt layer starting from a position separated by a distance of 3W or more and 7cm or less in the opposite direction.

〔作用〕[Effect]

トレッド部のトレッドゴムは、縁飾りリブとベルト層の
端部とを結ぶ境界面を介してトレッドゴムよりも軟質の
サイドウオールゴムを覆ういわゆるTO5構造であるた
め、トレッド面に形成されるラグ溝は硬質のゴ本からな
るトレッドゴムにより形成され、該溝は耐衝撃性に優れ
、石噛みの場合であっても溝の割れを防止でき耐パンク
性を高めることができる。
The tread rubber of the tread part has a so-called TO5 structure that covers the sidewall rubber, which is softer than the tread rubber, through the interface connecting the edge decoration rib and the end of the belt layer, so the lug grooves formed on the tread surface The grooves are formed from hard rubber tread rubber, and the grooves have excellent impact resistance, and can prevent cracking of the grooves even in the case of stone bite, thereby increasing puncture resistance.

又前記境界面には、該面に沿いベルト層にのびる有機繊
維コードを用いたバンド層を配しているため、石噛み時
における衝撃のカーカスへの伝播を防ぎ、カーカスコー
ドを破損から保護し、トレッド部の耐久性を向上しうる
Furthermore, since a band layer made of organic fiber cords is arranged on the boundary surface and extends to the belt layer along the boundary surface, it prevents the impact from being transmitted to the carcass when biting stones and protects the carcass cord from damage. , the durability of the tread portion can be improved.

又バンド層は、その始点を前記境界面の起点から内方に
規制された寸度を隔てて位置させているため、タイヤ外
面近傍においてはトレッドゴムと、サイドウオールゴム
とが密着し、接合が強固となるため、境界面からの剥離
を防ぎ耐久性を向上する。
Furthermore, since the band layer's starting point is located at a regulated distance inward from the starting point of the boundary surface, the tread rubber and sidewall rubber are in close contact with each other in the vicinity of the tire's outer surface, preventing bonding. Because it is strong, it prevents peeling from the interface and improves durability.

このように本願は前記した各構成が一体に結合され、バ
フ)レス部におけるラグ溝の耐衝撃性を高め耐パンク性
を向上しうるのである。
In this way, in the present invention, each of the above-mentioned configurations is combined into one, and the impact resistance of the lug grooves in the buffless portion can be increased, and the puncture resistance can be improved.

〔実施例〕 以下本発明の一実施例を図面に基づき説明する。〔Example〕 An embodiment of the present invention will be described below based on the drawings.

第1.2図において乗用車用ラジアルタイヤ1は、トレ
ッド部からバットレス部3、サイドウオール部4を通り
ビード部5のビードコア6の周りを折返すカーカス7と
、トレッド部2の内部かつカーカス7の外側に配される
ベルト層9とを具える。
In FIG. 1.2, the radial tire 1 for a passenger car includes a carcass 7 that passes from the tread portion, passes through the buttress portion 3, the sidewall portion 4, and folds around the bead core 6 of the bead portion 5, and the inside of the tread portion 2 and the carcass 7. and a belt layer 9 disposed on the outside.

前記トレッド部2には、その両側部からバットレス部3
の端部にのびる複数本のラグ溝11−を含むトレッド溝
G−がタイヤ周方向及びタイヤ子午線方向に配され、こ
れらのトレッド溝G−・−によりトレッド部2にブロッ
クパターン21が形成される。
The tread portion 2 has buttress portions 3 from both sides thereof.
A tread groove G- including a plurality of lug grooves 11- extending at the end of the tire is arranged in the tire circumferential direction and the tire meridian direction, and a block pattern 21 is formed on the tread portion 2 by these tread grooves G-. .

前記カーカス7は、ナイロン、ポリエステル、芳香族ポ
リアミド等の有機繊維コードをタイヤ赤道Cに対して6
0〜90°の角度で傾斜させ並置した1枚以上、本実施
例では2枚のカーカスプライ7A、7Bによって形成さ
れる。
The carcass 7 is made of organic fiber cords such as nylon, polyester, aromatic polyamide, etc.
It is formed by one or more carcass plies 7A and 7B, two carcass plies 7A and 7B in this embodiment, arranged side by side and inclined at an angle of 0 to 90 degrees.

又ベルト層9は、ナイロン、ポリエステル、芳香族ポリ
アミド等の有機繊維コードの他、スチールコードをタイ
ヤ赤道Cに対して傾斜させ並置した1枚以上、本例では
3枚のベルトプライ9A、9B、9Cを重ね合わせるこ
とにより形成される。
In addition to organic fiber cords such as nylon, polyester, and aromatic polyamide, the belt layer 9 is made of one or more belt plies 9A, 9B, in this example, three belt plies 9A, 9B, in which steel cords are arranged side by side and inclined with respect to the tire equator C. It is formed by overlapping 9C.

又バントレス部3の端部には、バットレス部表面から隆
起しかつタイヤの円周方向にのびるとともに小高さの縁
飾りリブ12が形成される。
Further, at the end of the buttress portion 3, a decorative rib 12 is formed which protrudes from the surface of the buttress portion, extends in the circumferential direction of the tire, and has a small height.

トレッド部2の外側にはトレッドゴム13が又サイドウ
オール部4からバットレス部3の外側にはサイドウオー
ルゴム14が夫々形成される。
Tread rubber 13 is formed on the outside of the tread portion 2, and sidewall rubber 14 is formed on the outside of the sidewall portion 4 and the buttress portion 3, respectively.

トレッドゴム13は、例えば第1表のA−Eに示すゴム
組成を有し、そのJISA硬度が60以上かつ75以下
の硬質のゴムからなる。又サイドウオールゴム14は、
第1表のA1〜A4に示すゴム組成によりそのJISA
硬度が50〜60度範囲としている。従ってサイドウオ
ールゴム14は、前記トレッドゴム13よりも軟賞のゴ
ムとして形成される。
The tread rubber 13 has, for example, a rubber composition shown in A to E in Table 1, and is made of hard rubber having a JISA hardness of 60 or more and 75 or less. Also, the side wall rubber 14 is
According to the rubber composition shown in Table 1 A1 to A4, the JISA
The hardness is in the range of 50 to 60 degrees. Therefore, the sidewall rubber 14 is formed as a softer rubber than the tread rubber 13.

前記トレッドゴム13と、サイドウオールゴム14とは
、縁飾りリブ12の表面を始点Fとしてベルト層のタイ
ヤ軸方向端部Hとを結ぶタイヤ半径方向に対して斜めに
傾く境界面Mを境界として合わされる。
The tread rubber 13 and the sidewall rubber 14 are bounded by a boundary surface M that is inclined obliquely with respect to the tire radial direction, which connects the surface of the edge decoration rib 12 as a starting point F and the tire axial end H of the belt layer. be combined.

なおトレッドゴム13の硬度が60度未満では、石噛み
時において、バットレス部の破損が生じ易く、又75度
を越えるとトレッド部2の剛性が大となり、転がり抵抗
が増しかつ乗心地が低下する。
If the hardness of the tread rubber 13 is less than 60 degrees, the buttress portion is likely to be damaged when stones bite, and if it exceeds 75 degrees, the rigidity of the tread portion 2 increases, increasing rolling resistance and reducing ride comfort. .

他方、縁飾りリブ12は、バットレス部3から隆起して
いるため、タイヤの走行による変形時において縁飾りリ
ブ12の外面の応力が小となる。
On the other hand, since the trimming ribs 12 are raised from the buttress portion 3, the stress on the outer surface of the trimming ribs 12 is reduced when the tire is deformed due to running.

従って前記境界面Mの始点Fを縁飾りリブ12の表面に
位置させることによって、境界面Mに作用する作用力が
小となり、両ゴムのIAJlを効率よく防止することが
できる。
Therefore, by locating the starting point F of the boundary surface M on the surface of the edge decoration rib 12, the force acting on the boundary surface M becomes small, and IAJl of both rubbers can be efficiently prevented.

前記境界面Mにはバンド層15が配される。A band layer 15 is disposed on the boundary surface M.

バンド層15は、ナイロン、ポリエステル、芳香族ポリ
アミド等の有機繊維コードをトッピングゴム中に埋設し
た1枚以上、本実施例では1枚のバンドプライからなる
The band layer 15 is composed of one or more band plies, in this embodiment, one band ply, in which organic fiber cords such as nylon, polyester, aromatic polyamide, etc. are embedded in topping rubber.

バンドプライは、有機繊維コードを用いて形成している
ため、ラグ溝11に石が噛み込むなどバットレス部3に
衝撃荷重が作用した場合にあっても、弾性変形しうるた
め、前記衝撃によるエネルギーをバンド層15及び該バ
ンド層15を介してサイドウオールゴム14に吸収させ
ることができる。
Since the band ply is formed using an organic fiber cord, it can be elastically deformed even if an impact load is applied to the buttress part 3, such as when a stone gets caught in the lug groove 11. can be absorbed into the band layer 15 and the sidewall rubber 14 via the band layer 15.

前記有機繊維コードは、初期弾性率を280に/■3以
上かつ3700kg/■1以下の範囲とするのが好まし
い。
It is preferable that the organic fiber cord has an initial elastic modulus in a range of 280 kg/2 or more and 3,700 kg/2 or less and 1 or less.

前記初期弾性率が280kg+/■8未満ではバットレ
ス部3に衝11?iii重が作用した場合の衝li吸収
能力が小さく、バンド層15を設けた効果が発揮されず
、又初期弾性率が3700kg/■3をこえるとバンド
層の剛性が増す結果、トレッド部2全体の剛性が大とな
り、転がり抵抗が増し、又乗心地が低下する。
If the initial elastic modulus is less than 280kg+/■8, the buttress portion 3 will have an impact of 11? iii) The impact absorption capacity when heavy loads are applied is small, and the effect of providing the band layer 15 is not exhibited. Also, if the initial elastic modulus exceeds 3700 kg/■3, the rigidity of the band layer increases, and as a result, the entire tread portion 2 The rigidity increases, rolling resistance increases, and riding comfort decreases.

なお有機繊維コードの打込み数についても前記理由によ
り5c11当たり45〜60本の範囲とするのが好まし
い。
The number of organic fiber cords to be implanted is also preferably in the range of 45 to 60 per 5c11 for the above-mentioned reasons.

又バンド層15は、縁飾りリブ12の表面に位置する境
界面Mの前記始点Fからタイヤ軸方向内方に3日以上か
つ7■以下の距離りを隔てる位置を起点Pとして、境界
面Mに沿ってベルト層9にのびている0本実施例ではバ
ンド層15の終点Qをベルト層9の前記端部Hに位置さ
せている。
The band layer 15 is formed from a starting point P at a distance of 3 days or more and 7 cm or less from the starting point F of the boundary surface M located on the surface of the edge decoration rib 12 in the axial direction of the tire. In this embodiment, the end point Q of the band layer 15 is located at the end H of the belt layer 9.

このようにバンド層15の起点Pを境界面Mの前記始点
Fと距11Lを隔てることによってバンド層の端部をト
レッドゴム13とサイドウオールゴム14との両ゴムに
よって完全に覆うことができ、バンド層15の剥離を防
止することができる。
In this way, by separating the starting point P of the band layer 15 from the starting point F of the boundary surface M by a distance 11L, the end of the band layer can be completely covered by both the tread rubber 13 and the sidewall rubber 14, Peeling of the band layer 15 can be prevented.

又前記距jlILが3日未満ではバンド層15は、その
起点P近傍において剥離が生じ易く、又7論をこえると
、ラグ溝11の石噛みにより始点P近傍においてカーカ
ス7のコードを破損し、耐久性が低下する。
If the distance jlIL is less than 3 days, the band layer 15 is likely to peel off in the vicinity of its starting point P, and if it exceeds 7 days, the cord of the carcass 7 will be damaged near the starting point P due to stone bite in the lug groove 11. Durability decreases.

又本実施例では、バフドレス部3は、前記縁飾りリブ1
2の半径方向外端から外面に沿ってタイヤ赤道側に5諺
を隔てる位置におけるラグ溝lOの溝底と、前記カーカ
スの外面との間の厚さTBを4.5 m以上かつ8.5
 ta以下の範囲としている。
Further, in this embodiment, the buff dress portion 3 has the edge decoration rib 1.
The thickness TB between the groove bottom of the lug groove IO and the outer surface of the carcass at a position separated by 5 mm from the radially outer end of the outer surface along the outer surface toward the tire equator side is 4.5 m or more and 8.5 m or more.
The range is below ta.

前記厚さTBが4.5mm未満となると、トレッドゴム
13のゴム厚みが薄くなり、ラグ溝10の溝底における
耐衝撃性が低下する一方、8.5mmをこえるとトレッ
ドゴム13が全体に亘って厚肉となる結果、タイヤ重量
が増し、コスト高となる。
When the thickness TB is less than 4.5 mm, the rubber thickness of the tread rubber 13 becomes thin, and the impact resistance at the groove bottom of the lug groove 10 decreases, while when it exceeds 8.5 mm, the tread rubber 13 becomes thin over the entire area. As a result, the tire weight increases and the cost increases.

第3図(a)、偽)はバンド層の配役位置が異なる他の
例を示す。
FIG. 3(a) (false) shows another example in which the band layer is placed in a different position.

第3図(旬にあっては、バンド層15Aは、前記構成の
起点Pから境界面Mに沿ってベルト層9にのびるととも
に、その終端Qをベルト層9内面とカーカス7の外面と
の間に挟み入れており、該終@Qをベルト層9、カーカ
ス7によって挟持し、バンド層15Aの移動を阻止して
いる。
FIG. 3 (In the season, the band layer 15A extends from the starting point P of the above structure to the belt layer 9 along the boundary surface M, and its terminal end Q is between the inner surface of the belt layer 9 and the outer surface of the carcass 7. The end @Q is held between the belt layer 9 and the carcass 7 to prevent movement of the band layer 15A.

又第3図山)にあっては、バンド層15Bの終端Qがカ
ーカス9の端部Hを覆っており、走行時においてトレッ
ド部の変形によるベルト層9の端部剥難を防止すること
ができる。
In addition, in Fig. 3, the terminal end Q of the band layer 15B covers the end H of the carcass 9, and it is possible to prevent the end part of the belt layer 9 from peeling off due to deformation of the tread part during running. can.

このようにバンド層を第3図18)又は第3図山)のご
とく構成することによりトレッド部2の耐久性を一層向
上することができる。
By configuring the band layer as shown in FIG. 3 (18) or (3), the durability of the tread portion 2 can be further improved.

〔具体例〕〔Concrete example〕

(A)  タイヤサイズがP 235/75 R15の
タイヤについて第1図の構成を有しかつ第2表に示す仕
様についてタイヤ(実施例1〜7)を試作し、その性能
をテストした。なお比較のため及び本願構成外の仕様の
タイヤ(比較例1〜4)を製作し、併せてテストを行っ
た。
(A) Tires with a tire size of P235/75 R15 having the structure shown in FIG. 1 and the specifications shown in Table 2 were prototyped (Examples 1 to 7), and their performance was tested. For comparison purposes, tires (Comparative Examples 1 to 4) with specifications other than those specified in the present invention were manufactured and tested.

テストは下記仕様による。The test is based on the specifications below.

(1) バットレス貫通エネルギーテスト試供タイヤを
6%J×15のリムに装着し、内腔に1.8kg/cm
”の内圧を充堰するとともに、該タイヤを振子式インパ
クト試験機Iを用いて衝撃テストを行った。
(1) Buttress penetration energy test A sample tire was mounted on a rim of 6% J x 15, and 1.8 kg/cm was applied to the inner cavity.
The tire was subjected to an impact test using a pendulum impact tester I.

振子式インパクト試験IIIは第4図に略示する如く、
試供タイヤTを、そのトレッド面を把持具Kにより把持
するとともに、振子Nを把持具に近傍に位置するラグ溝
Rの溝底りに振り当て溝底りに衝撃荷重を加える。衝撃
エネルギーは振子Nの重錘Wの重量を調整することによ
り変化でき、その溝底に亀裂が生じたときの衝撃エネル
ギーを測定した。
The pendulum impact test III is as shown schematically in Figure 4.
The tread surface of the sample tire T is gripped by a gripper K, and a pendulum N is applied to the groove bottom of a lug groove R located near the gripper to apply an impact load to the groove bottom. The impact energy can be changed by adjusting the weight of the weight W of the pendulum N, and the impact energy when a crack occurs at the bottom of the groove is measured.

表中の数値は比較例1を100とする指数で示し数値が
大きいほど良好であることを示す。
The numerical values in the table are expressed as an index with Comparative Example 1 set as 100, and the larger the numerical value, the better.

(2) バフトレス部耐久性 (13項と同様に6%Jx15のリムに装着し2.45
ksr/−の内圧を装填するとともに、ドラム試験機を
用いて該タイヤの許容最大荷重の1.5倍の荷重を加え
80km/Hの速度で30.000kmの距離を走行さ
せたとき、バフトレス部に損傷が認められなかった場合
を100とする指数で表示した。
(2) Durability of buffless part (2.45 when installed on a 6% J x 15 rim as in item 13)
When the tire was loaded with an internal pressure of ksr/- and a load of 1.5 times the maximum allowable load of the tire using a drum testing machine, and the tire was run for a distance of 30,000 km at a speed of 80 km/H, the buffless portion It was expressed as an index with 100 being the case where no damage was observed.

100未満の数値のものは損傷が生じたことを示す。A value less than 100 indicates that damage has occurred.

(B)  前記(A>項と同サイズのタイヤについて、
トレッドゴム及びサイドウオールゴムの各ゴムの硬度上
、バフトレス貫通エネルギーとの関係を調査した。なお
調査に際してはバンド層の構成は第3表に示す如く一定
とした。なおエネルギーテストは(A)項と同一条件と
した。
(B) Regarding tires of the same size as the above item (A>),
We investigated the relationship between the hardness of each rubber, tread rubber and sidewall rubber, and buff stress penetration energy. In addition, during the investigation, the configuration of the band layer was kept constant as shown in Table 3. The energy test was conducted under the same conditions as in section (A).

テストの結果、実施例のものは比較例のものに比べて優
れることが確認出来た。
As a result of the test, it was confirmed that the examples were superior to those of the comparative examples.

〔発明の効果〕 叙上の如く本発明の乗用車用ラジアルタイヤは、バフト
レス部のトレッドゴムが、縁飾りリブ表面の始点と、ベ
ルト層端部とを結ぶ境界面を介してサイドウオールゴム
を覆いしかもその境界面に沿いバンド層を設けることを
要旨としているため、ラグ溝の溝底部における耐衝撃性
を高め耐パンク性を向上することが出来る。
[Effects of the Invention] As described above, in the passenger car radial tire of the present invention, the tread rubber of the buff tress portion covers the sidewall rubber via the boundary surface connecting the starting point of the edge decoration rib surface and the end of the belt layer. Moreover, since the band layer is provided along the boundary surface, the impact resistance at the bottom of the lug groove can be improved, and the puncture resistance can be improved.

【図面の簡単な説明】[Brief explanation of drawings]

第1図は本発明の一実施例を示すタイヤ左半分断面図、
第2図はそのトレッドパターンを例示する展開平面図、
第3図(a)〜(b)はバンド層の他の例を示す部分断
面図、第4図はラグ溝の貫通エネルギーを測定する装置
を略示する正面図、第5図は従来技術を示す断面図であ
る。 2−)レッド部、    3−・バットレス部、4−サ
イドウオール部 5・−・ビード部6−ビードコア、 
7−カーカス、9−ベルト層、11−・ラグ溝、   
12−縁飾りリブ、13−・−トレッドゴム、1.1−
 サイドウオールゴム、15−・バンド層、 F−−一
一一始点、H−・−ベルト層の端部、L−・距離、  
M −境界面、    P・−起点、TB−・−バント
レス部の溝底からの厚さ。 特許出願人      住友ゴム工業株式会社代理人 
 弁理士   苗   村    正第2図 I!1 第3図(a) ′tx31”W(b) 第4 図 第5図
FIG. 1 is a left half sectional view of a tire showing an embodiment of the present invention;
Figure 2 is a developed plan view illustrating the tread pattern;
3(a) to 3(b) are partial cross-sectional views showing other examples of band layers, FIG. 4 is a front view schematically showing an apparatus for measuring the penetration energy of lug grooves, and FIG. 5 is a conventional technique. FIG. 2-) Red part, 3- Buttress part, 4- Sidewall part 5- Bead part 6- Bead core,
7- carcass, 9- belt layer, 11- lug groove,
12-Edge rib, 13-.-Tread rubber, 1.1-
Sidewall rubber, 15--band layer, F--111 starting point, H--end of belt layer, L--distance,
M - interface, P - starting point, TB - thickness of buntless part from the groove bottom. Patent applicant Sumitomo Rubber Industries Co., Ltd. Agent
Patent Attorney Tadashi Naemura Figure 2 I! 1 Figure 3 (a) 'tx31''W (b) Figure 4 Figure 5

Claims (1)

【特許請求の範囲】 1 トレッド部からバットレス部、サイドウォール部を
通りビード部のビードコアの周りを折返すカーカスと、
トレッド部の内部かつカーカスの外側に配されるベルト
層とを具え、前記トレッド部両側のラグ溝のバットレス
端部に、バットレス表面から隆起しかつ円周方向にのび
る小高さの縁飾りリブを形成するとともに、トレッド部
外側のトレッドゴムは、前記縁飾りリブの表面の始点と
前記ベルト層のタイヤ軸方向端部とを結ぶ半径方向に対
して斜めの境界面を介してサイドウォール部外側からの
びかつ該トレッドゴムよりも軟質のサイドウォールゴム
を覆うとともに、前記始点からタイヤ軸方向内方に3m
m以上かつ7mm以下の距離を隔てる位置を起点として
前記境界面に沿い前記ベルト層にのびかつ有機繊維コー
ドを用いたバンド層を配してなる乗用車用ラジアルタイ
ヤ。 2 前記バットレス部は、前記縁飾りリブの半径方向外
端から外面に沿ってタイヤ赤道側に5mmを隔てる位置
における前記ラグ溝の溝底と、前記カーカスの外面との
間の厚さが4.5mm以上かつ8.5mm以下であるこ
とを特徴とする請求項1記載の乗用車用ラジアルタイヤ
[Claims] 1. A carcass that passes from the tread portion to the buttress portion, the sidewall portion, and is folded back around the bead core of the bead portion;
a belt layer disposed inside the tread part and outside the carcass, and a small-height edge decoration rib is formed at the buttress end of the lug groove on both sides of the tread part, protruding from the buttress surface and extending in the circumferential direction. At the same time, the tread rubber on the outside of the tread portion extends from the outside of the sidewall portion via a boundary surface oblique to the radial direction connecting the starting point of the surface of the edge decoration rib and the axial end of the belt layer. and covers the sidewall rubber, which is softer than the tread rubber, and extends 3 m inward in the axial direction of the tire from the starting point.
A radial tire for a passenger car, comprising a band layer made of an organic fiber cord and extending along the boundary surface to the belt layer starting from a position separated by a distance of 7 mm or more and 7 mm or more. 2. The buttress portion has a thickness of 4 mm between the groove bottom of the lug groove and the outer surface of the carcass at a position 5 mm apart from the radially outer end of the trim rib toward the tire equator along the outer surface. The radial tire for a passenger car according to claim 1, having a diameter of 5 mm or more and 8.5 mm or less.
JP2196560A 1990-07-25 1990-07-25 Radial tires for passenger cars Expired - Fee Related JP2892115B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2196560A JP2892115B2 (en) 1990-07-25 1990-07-25 Radial tires for passenger cars

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2196560A JP2892115B2 (en) 1990-07-25 1990-07-25 Radial tires for passenger cars

Publications (2)

Publication Number Publication Date
JPH0485105A true JPH0485105A (en) 1992-03-18
JP2892115B2 JP2892115B2 (en) 1999-05-17

Family

ID=16359766

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2196560A Expired - Fee Related JP2892115B2 (en) 1990-07-25 1990-07-25 Radial tires for passenger cars

Country Status (1)

Country Link
JP (1) JP2892115B2 (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7537035B2 (en) * 2006-01-20 2009-05-26 The Yokohama Rubber Co., Ltd. Pneumatic tire with wound cord layer between carcass layer and belt layers
JP2010100159A (en) * 2008-10-23 2010-05-06 Bridgestone Corp Pneumatic tire
JP2012091529A (en) * 2010-10-22 2012-05-17 Yokohama Rubber Co Ltd:The Pneumatic tire
JP2012245904A (en) * 2011-05-27 2012-12-13 Yokohama Rubber Co Ltd:The Pneumatic tire
US8991458B2 (en) 2011-05-27 2015-03-31 The Yokohama Rubber Co., Ltd. Pneumatic tire

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5342580B2 (en) * 2011-02-28 2013-11-13 住友ゴム工業株式会社 Pneumatic tire

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5637084A (en) * 1979-08-30 1981-04-10 Tokyo Keiki Kk Washing device for rotary viscometer
JPS5830806A (en) * 1981-08-12 1983-02-23 Sumitomo Rubber Ind Ltd Radial tire
JPS6038211A (en) * 1983-08-09 1985-02-27 Sumitomo Rubber Ind Ltd Radial tire

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5637084A (en) * 1979-08-30 1981-04-10 Tokyo Keiki Kk Washing device for rotary viscometer
JPS5830806A (en) * 1981-08-12 1983-02-23 Sumitomo Rubber Ind Ltd Radial tire
JPS6038211A (en) * 1983-08-09 1985-02-27 Sumitomo Rubber Ind Ltd Radial tire

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7537035B2 (en) * 2006-01-20 2009-05-26 The Yokohama Rubber Co., Ltd. Pneumatic tire with wound cord layer between carcass layer and belt layers
JP2010100159A (en) * 2008-10-23 2010-05-06 Bridgestone Corp Pneumatic tire
JP2012091529A (en) * 2010-10-22 2012-05-17 Yokohama Rubber Co Ltd:The Pneumatic tire
JP2012245904A (en) * 2011-05-27 2012-12-13 Yokohama Rubber Co Ltd:The Pneumatic tire
US8991458B2 (en) 2011-05-27 2015-03-31 The Yokohama Rubber Co., Ltd. Pneumatic tire

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