JP3744976B2 - Structure of rubber track - Google Patents

Structure of rubber track Download PDF

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Publication number
JP3744976B2
JP3744976B2 JP19417395A JP19417395A JP3744976B2 JP 3744976 B2 JP3744976 B2 JP 3744976B2 JP 19417395 A JP19417395 A JP 19417395A JP 19417395 A JP19417395 A JP 19417395A JP 3744976 B2 JP3744976 B2 JP 3744976B2
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JP
Japan
Prior art keywords
rubber
crawler
rubber crawler
bulging
core
Prior art date
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Expired - Lifetime
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JP19417395A
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Japanese (ja)
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JPH0920271A (en
Inventor
陽一 熊野
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Bridgestone Corp
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Bridgestone Corp
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Publication date
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Priority to JP19417395A priority Critical patent/JP3744976B2/en
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Description

【0001】
【発明の属する技術分野】
本発明は、建設機械等の走行装置に用いられるゴムクロ−ラに関し、特に言えば、脱輪性能を改良したゴムクロ−ラの耐久性を向上せんとするものである。
【0002】
【従来の技術】
近年、ゴムクロ−ラとアイドラ−或いはロ−ラ−との間の脱輪防止が要請されており、脱輪は芯金がゴムクロ−ラの幅方向に横ずれすることにより生ずることが分ってきている。これはゴム中に埋設された芯金が外力によってゴム弾性の範囲内で横方向にずれ、このずれた状態の芯金にアイドラ−やロ−ラ−が乗り上げてしまいこのまま脱輪を生ずることになる。
【0003】
この芯金の横ずれを防止するためにゴム中に埋設された隣合う芯金同士を接触干渉させる構造が考えられており、ゴム中に隣り合って埋設されている芯金より隣り合う芯金に向って膨出部を形成し、一つの芯金が横ずれの力が働いた際に膨出部同士が衝突しあって横ずれをできるだけ少なくし、クロ−ラの脱輪の防止機能を付与する構造となっている。即ち、前記した膨出部はクロ−ラの幅方向視において、少なくとも一部が重複するように構成されるものであって、この重複部位が相互に衝突するものである。
【0004】
ところで、かかるゴムクロ−ラには、内周面より突出する脱輪防止用突起間のゴム部に凹部を設け、これによってスプロケットやアイドラ−へのゴムクロ−ラの巻き付け抵抗を減少させるようになっている。従って、スプロケットやアイドラ−へ巻き付いた際、又は小石等への乗り上げ時に生じるゴムクロ−ラの逆曲げ時の屈曲の中心はこの凹部の底部の中心部になる。即ち、ゴムクロ−ラの内周面より突出する突起の間のゴムを予め取り除いておき、これによってゴムの屈曲をこの凹部に集中させ巻き付き抵抗の減少を図ったものである。
【0005】
【発明が解決しようとする課題】
さて、このゴムクロ−ラの屈曲中心となる凹部と、前記した横ずれ防止機能を付与する膨出部との関係はほとんど研究されていない。即ち、膨出部の重複する部位及びその周辺のゴムは、膨出部の先端部によってゴムが圧縮、引っ張り、曲げ等の変形力が加わるが、前記したゴムクロ−ラの屈曲中心となる凹部への影響については考慮されていないのが実情である。
【0006】
さて、屈曲中心の凹部はその底部においてゴム厚が薄くなっているため、この重複中心部と屈曲中心部とが同一位置にある場合にはこの部位に変形応力が集中してしまい、ゴムの劣化が集中する。このため、特に逆曲げ現象時に凹部の底部にクラックが生じ易く、その結果芯金の露出が発生し、芯金欠落をもたらしてクロ−ラの寿命を著しく短くしてしまうこととなっていた。
【0007】
本発明は、突起間に形成した凹部の特に底部に応力を集中させないようにしたものであり、ゴムクロ−ラの寿命の向上を図った構造を提供したものである。
【0008】
【課題を解決するための手段】
本発明の要旨は、ゴムクロ−ラの基体となる無端状ゴム弾性体と、このゴム弾性体中に一定ピッチをもって横並びに埋設された芯金と、この芯金を外囲いし埋設されたスチ−ルコ−ド列とからなり、前記芯金はゴムクロ−ラの内周面より突出する一対の脱輪防止用突起と、隣り合う芯金に向ってのびる横ずれ防止用膨出部とが備えられ、この膨出部は前記脱輪防止用突起の直下に形成されると共に、クロ−ラ幅方向視にて少なくとも一部が重複する構成を備えたゴムクロ−ラであって、ゴムクロ−ラ長手方向に隣接する前記脱輪防止用突起間に凹部を形成すると共に、クロ−ラ幅方向視にて膨出部の重複中心部位と凹部の底部中心部位とを合致させないように構成したことを特徴とするゴムクロ−ラの構造に係るものである。
【0009】
ゴムクロ−ラの内周面から突出する突起間に形成される凹部の中心と膨出部の重複中心とを一致させた場合、巻き付き時の圧縮、引っ張り等の応力はこの凹部の底部の中心に集中する一方で、膨出部先端における各種の応力も又その重複部の中心、即ち凹部の底部の中心に集中することとなり、この凹部の底部よりクラックの発生を見ることとなってしまう。
【0010】
しかるに、本発明のように凹部の底部中心と重複部の中心とをオフセットしてやることにより、その応力の集中は緩和されることとなり、ここにゴムクロ−ラの寿命の向上が図られることとなったものである。言い換えれば、突起間における凹部のみを考えればゴムクロ−ラの歪が凹部の底部に集中し易いし、一方、膨出部のみを考えれば、重複域の中心近傍にこれ又歪が集中するものであって、本発明はこの両者の歪の集中部位を合致させない構造とし、ゴムに生じる歪応力を分散しゴムクロ−ラの寿命の向上を図ったものである。
【0011】
【発明の実施の形態】
以下、発明の実施の形態を図面をもって説明する。
図4は突起間の凹部底部と膨出部の重複部中心とが合致した場合(オフセット量C)のゴムクロ−ラの内周側平面図、図5は突部における断面図である。
図中、1は芯金、2はこの芯金を内包するゴム弾性体である。又、3は芯金を外囲いしてゴム弾性体2中に埋設されたスチ−ルコ−ド列である。4はゴム弾性体2の外周に形成したゴムラグである。さて、芯金1よりゴム弾性体2の内周面より突起5が突出しており、この例では突起5は芯金1の翼部6よりゴム弾性体2の長手方向に向けて千鳥状に張り出している。そして隣り合う芯金1、1の突起5、5間のゴム弾性体は予め取り除かれて凹部7が形成されている。この突起5、5上はロ−ラ−30或いはアイドラ−が転動することとなり、一対の突起5、5間にはこれらの内鍔31がはさまって脱転が防止されるものである。
【0012】
さて、この例にあっては、突起5、5の直下に夫々膨出部8、9が形成され、その先端が先細の端部81 とされ、一方が二股端91 とされて、これが係合しあうものである。この係合によって芯金1、1が横ずれを生じた際にも、隣り合う芯金1、1同士が干渉しあってそのずれを阻止するものである。
【0013】
このゴムクロ−ラは、スプロケット等への巻き付の際にはこの凹部7が屈曲の中心となり、この凹部7の底部70 にその歪応力が集中することになる。一方、この例のゴムクロ−ラにあっては、芯金1に横ずれ力が加わった場合、膨出部8、9の先端の重複部10(係合部)に歪応力が集中する。
しかるに、この例にあっては凹部7の直下に重なって膨出部の重複部10が存在する(オフセット量0)ため、凹部7の底部70 にゴム弾性体2の全ての歪が集中してしまいゴム劣化が促進されることになる。特に、ゴムクロ−ラに逆曲げが発生する際には、この凹部7の底部70 にクラックが生じ易くなってしまうものであった。
図中、11は芯金1の中央部であり、図示しないスプロケットとの係合部、12はスプロケット係合孔である。
【0014】
【実施例】
本発明にあっては、前記したように凹部7の底部70 と膨出部の重複部8の中心部をずらす(オフセット量C)ことによって凹部7の底部70 にゴム歪応力を集中することを防止したものであり、この例においては、例えば膨出部8、9の長さを調整し、その先端8、9の重複部10の中心を凹部7の底部70 よりもずらすことによってこの部位のゴム劣化の促進を阻止し、ゴムクロ−ラの寿命を向上させようとするものである。
【0015】
図1は上記したゴムクロ−ラを改良した本発明の実施の形態を示す第1例における内周側平面図であり、図2は突起部における断面図である。この例にあっては前記した図4〜5の場合と同様に突起5の直下に膨出部8、9を形成し、これらを係合させて芯金1、1の横ずれを防止する機能を有するものであるが、膨出部8、9の長さを前記と異ならせたもので、図示するように膨出部の重複部10の中心を凹部7の底部70 よりもずらした(オフセット量C)ものである。
このことにより、ゴム弾性体2に生ずる歪を分散させることが可能となったものであり、ゴムクロ−ラに逆曲げ等の現象が起ったとしても凹部7の底部70 にクラックの発生はほとんど生じないものとなった。
【0016】
【0017】
(実験例)
以下、実験例をもって本発明の効果を更に説明する。
図3は実験を行ったゴムクロ−ラの芯金の拡大図であり、ゴムクロ−ラの幅Wは400mm、芯金間のピッチPは74mm、突起の頂面部の長さL1 は52mm、膨出部24の全長L2 は83mm、突起間の隙間22mm、この隙間に設けられる凹み部の深さは翼部から5mmの深さに達している。そして、凹部の中央部と膨出部24の重複部の中央部とのオフセット量Cは膨出部24の長さを調節し6mmとした。即ち、重複部の中心は芯金中心の中央に位置するものである。一方、従来のゴムクロ−ラとしては、オフセット量を0mm、即ち凹み部の中央部と膨出部24の重複部の中央部とを一致させた構造のものである。
【0018】
実験場所は丸石及び砂を混ぜた人口不整地路であり、ゴムクロ−ラを5tonの機体に装着し、連続走行試験を行った。尚、この試験路での逆曲げの角度は最大125度になるように丸石を設定してある。
【0019】
試験結果として、本発明のゴムクロ−ラにあっては、50時間の走行後にも芯金に達するクラックは発生しなかったのに対し、前記した従来の構造のゴムクロ−ラにあっては、10時間後に凹部に芯金膨で部に達するクラックが発生した。
【0020】
【発明の効果】
本発明のゴムクロ−ラにあっては、以上のようにクラックの発生が低減されたものであり、その耐久性の向上が著しい。
【図面の簡単な説明】
【図1】 図1は本発明のゴムクロ−ラの第1実施例における内周側平面図である。
【図2】 図2は図1のゴムクロ−ラにおける突起部での断面図である。
【図3】 図3は実験に用いたゴムクロ−ラにおける芯金での断面図である。
【図4】 図4は従来のゴムクロ−ラの内周側平面図である。
【図5】 図5は図4のゴムクロ−ラにおける突起部での断面図である。
【符号の説明】
1‥‥芯金、
2‥‥ゴム弾性体、
3‥‥スチ−ルコ−ド列、
4‥‥ゴムラグ、
5‥‥突起、
6‥‥芯金の翼部、
7‥‥凹部、
70 ‥‥凹部の底部、
8、9‥‥膨出部、
10‥‥膨出部の重複部、
11‥‥スプロケットとの係合部、
12‥‥スプロケット係合孔、
30‥‥ロ−ラ−、
31‥‥内鍔、
C‥‥オフセット量。
[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a rubber crawler used in a traveling device such as a construction machine, and more particularly, to improve the durability of a rubber crawler with improved derailment performance.
[0002]
[Prior art]
In recent years, there has been a demand for prevention of derailment between a rubber crawler and an idler or a roller, and it has been found that derailment occurs when the core metal is laterally displaced in the width direction of the rubber crawler. Yes. This is because the cored bar embedded in the rubber is displaced laterally within the range of rubber elasticity by the external force, and the idler or the roller rides on the shifted cored bar and the wheel is removed as it is. Become.
[0003]
In order to prevent lateral displacement of the core metal, a structure in which adjacent core bars embedded in the rubber contact and interfere with each other is considered, and the core metal adjacent to the core metal embedded adjacent to the rubber has been considered. A structure that forms a bulging part toward one side, and when one core metal exerts a lateral displacement force, the bulging parts collide with each other to reduce the lateral displacement as much as possible and to provide a function to prevent the removal of the crawler. It has become. That is, the above-described bulging portions are configured such that at least a portion thereof overlaps when viewed in the width direction of the crawler, and the overlapping portions collide with each other.
[0004]
By the way, such a rubber crawler is provided with a concave portion in a rubber portion between the protrusions for preventing the wheel from protruding from the inner peripheral surface, thereby reducing the winding resistance of the rubber crawler around the sprocket or idler. Yes. Therefore, the center of bending when the rubber crawler is reversely bent when it is wound around a sprocket or idler or when riding on a pebble or the like is the center of the bottom of this recess. That is, the rubber between the protrusions protruding from the inner peripheral surface of the rubber tracker is removed in advance, thereby concentrating the bending of the rubber in the concave portion and reducing the winding resistance.
[0005]
[Problems to be solved by the invention]
Now, there has been little research on the relationship between the concave portion serving as the bending center of the rubber crawler and the bulging portion imparting the above-described lateral shift prevention function. That is, the overlapping part of the bulging part and the surrounding rubber are subjected to deformation force such as compression, pulling, bending, etc. by the tip part of the bulging part, but to the concave part which becomes the bending center of the rubber crawler described above. The actual situation is that no consideration is given to the effects of.
[0006]
Now, since the rubber thickness is thin at the bottom of the concave portion at the center of bending, when this overlapping center portion and the bending center portion are at the same position, deformation stress concentrates on this portion, and the rubber deteriorates. Concentrate. For this reason, cracks are likely to occur at the bottom of the recess, particularly during the reverse bending phenomenon. As a result, the cored bar is exposed, leading to a loss of the cored bar, which significantly shortens the life of the crawler.
[0007]
The present invention provides a structure in which the stress is not concentrated on the concave portion formed between the protrusions, particularly at the bottom, and the life of the rubber crawler is improved.
[0008]
[Means for Solving the Problems]
The gist of the present invention is that an endless rubber elastic body serving as a base of a rubber crawler, a core bar embedded side by side with a constant pitch in the rubber elastic body, and a steel that surrounds and is embedded in the core bar. The core bar is provided with a pair of anti-rolling protrusions protruding from the inner peripheral surface of the rubber crawler, and a lateral slip prevention bulging portion extending toward the adjacent core bar, The bulging portion is a rubber crawler that is formed immediately below the protrusion for preventing wheel disengagement and has a configuration in which at least a part thereof overlaps when viewed in the width direction of the crawler, in the longitudinal direction of the rubber crawler. A concave portion is formed between the adjacent protrusions for preventing wheel removal, and the overlapping central portion of the bulging portion and the bottom central portion of the concave portion are not matched with each other when viewed in the width direction of the crawler. This relates to the structure of the rubber track.
[0009]
When the center of the recess formed between the protrusions projecting from the inner peripheral surface of the rubber crawler and the overlapping center of the bulging portion are matched, the stress such as compression and tension at the time of winding is at the center of the bottom of the recess. On the other hand, various stresses at the tip of the bulging portion are also concentrated at the center of the overlapping portion, that is, at the center of the bottom of the recess, and the occurrence of cracks is observed from the bottom of the recess.
[0010]
However, by offsetting the center of the bottom of the recess and the center of the overlapping portion as in the present invention, the stress concentration is alleviated, and the life of the rubber crawler is improved here. Is. In other words, if only the recesses between the protrusions are considered, the strain of the rubber crawler tends to concentrate on the bottom of the recesses, whereas if only the bulging part is considered, the strains are also concentrated near the center of the overlapping area. Therefore, the present invention has a structure in which the strain concentration sites of both are not matched, and the strain stress generated in the rubber is dispersed to improve the life of the rubber crawler.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 4 is a plan view of the inner side of the rubber crawler when the bottom of the concave portion between the protrusions coincides with the center of the overlapping portion of the bulging portion (offset amount C), and FIG. 5 is a cross-sectional view of the protrusion.
In the figure, 1 is a metal core, and 2 is a rubber elastic body containing the metal core. Reference numeral 3 denotes a steel cord row which surrounds the core metal and is embedded in the rubber elastic body 2. Reference numeral 4 denotes a rubber lug formed on the outer periphery of the rubber elastic body 2. Now, the protrusion 5 protrudes from the inner peripheral surface of the rubber elastic body 2 from the core metal 1, and in this example, the protrusion 5 protrudes in a zigzag manner from the wing part 6 of the core metal 1 toward the longitudinal direction of the rubber elastic body 2. ing. Then, the rubber elastic body between the protrusions 5 and 5 of the adjacent core bars 1 and 1 is removed in advance to form a recess 7. The roller 30 or idler rolls on the projections 5 and 5, and the inner flange 31 is sandwiched between the pair of projections 5 and 5 to prevent the roll-off.
[0012]
In this example, the bulging portions 8 and 9 are formed immediately below the protrusions 5 and 5, respectively, and the tips are tapered ends 81 and one is a bifurcated end 91, which are engaged. It's something to meet. Even when the core bars 1 and 1 are laterally shifted by this engagement, the adjacent core bars 1 and 1 interfere with each other to prevent the shift.
[0013]
When the rubber crawler is wound around a sprocket or the like, the recess 7 becomes the center of bending, and the strain stress is concentrated on the bottom 70 of the recess 7. On the other hand, in the rubber crawler of this example, when a lateral displacement force is applied to the core metal 1, strain stress concentrates on the overlapping portion 10 (engagement portion) at the tip of the bulging portions 8 and 9.
However, in this example, there is an overlapping portion 10 of the bulging portion that overlaps directly below the concave portion 7 (offset amount 0), so that all the strain of the rubber elastic body 2 is concentrated on the bottom portion 70 of the concave portion 7. As a result, rubber deterioration is promoted. In particular, when reverse bending occurs in the rubber crawler, cracks are likely to occur at the bottom 70 of the recess 7.
In the figure, reference numeral 11 denotes a central portion of the cored bar 1, an engaging portion with a sprocket (not shown), and 12 a sprocket engaging hole.
[0014]
【Example】
In the present invention, the rubber strain stress is concentrated on the bottom 70 of the recess 7 by shifting the bottom 70 of the recess 7 and the center of the overlapping portion 8 of the bulging portion (offset amount C) as described above. In this example, for example, the length of the bulging portions 8 and 9 is adjusted, and the center of the overlapping portion 10 of the tip 8 or 9 is shifted from the bottom 70 of the concave portion 7, thereby It is intended to prevent the deterioration of rubber and improve the life of the rubber crawler.
[0015]
FIG. 1 is a plan view of an inner peripheral side in a first example showing an embodiment of the present invention in which the above-described rubber crawler is improved, and FIG. In this example, as in the case of FIGS. 4 to 5 described above, the bulging portions 8 and 9 are formed immediately below the protrusion 5 and engaged to prevent the lateral displacement of the core bars 1 and 1. Although the length of the bulging portions 8 and 9 is different from the above, the center of the overlapping portion 10 of the bulging portion is shifted from the bottom portion 70 of the concave portion 7 as shown in the figure (offset amount). C).
This makes it possible to disperse the strain generated in the rubber elastic body 2, and even if a phenomenon such as reverse bending occurs in the rubber crawler, almost no crack is generated in the bottom 70 of the recess 7. It did not occur.
[0016]
[0017]
(Experimental example)
Hereinafter, the effect of the present invention will be further described with experimental examples.
FIG. 3 is an enlarged view of the core of the rubber crawler in which the experiment was performed. The width W of the rubber crawler was 400 mm, the pitch P between the cores was 74 mm, the length L1 of the top surface of the protrusion was 52 mm, and the bulge The total length L2 of the portion 24 is 83 mm, the gap between the protrusions is 22 mm, and the depth of the recess provided in the gap reaches a depth of 5 mm from the wing portion. The offset amount C between the central portion of the concave portion and the central portion of the overlapping portion of the bulging portion 24 is 6 mm by adjusting the length of the bulging portion 24. That is, the center of the overlapping portion is located at the center of the core metal center. On the other hand, the conventional rubber crawler has a structure in which the offset amount is 0 mm, that is, the central portion of the recessed portion and the central portion of the overlapping portion of the bulging portion 24 are matched.
[0018]
The experimental place was an artificial rough terrain mixed with cobbles and sand. A rubber crawler was mounted on a 5 ton airframe and a continuous running test was conducted. The cobblestone is set so that the maximum angle of reverse bending on this test path is 125 degrees.
[0019]
As a test result, in the rubber crawler of the present invention, cracks reaching the core metal did not occur even after running for 50 hours, whereas in the rubber crawler having the conventional structure described above, 10 After a time, cracks reaching the part due to the expansion of the core metal occurred in the concave part.
[0020]
【The invention's effect】
In the rubber track of the present invention, the occurrence of cracks is reduced as described above, and the durability is remarkably improved.
[Brief description of the drawings]
FIG. 1 is a plan view of an inner peripheral side in a first embodiment of a rubber track according to the present invention.
FIG. 2 is a cross-sectional view of a protrusion in the rubber track of FIG.
FIG. 3 is a cross-sectional view of a rubber bar used in the experiment with a cored bar.
FIG. 4 is a plan view of an inner peripheral side of a conventional rubber crawler.
FIG. 5 is a cross-sectional view of a protrusion in the rubber track of FIG.
[Explanation of symbols]
1 ... Core,
2. Rubber elastic body,
3 ... Steel code line,
4 ... Rubber lugs,
5 ... Projections,
6 ...... Core metal wings,
7: Recess,
70 ... the bottom of the recess,
8, 9 ... bulge,
10 ... Overlapping part of the bulge,
11... Engaging part with sprocket,
12 ... Sprocket engagement hole,
30 Roller,
31 ... Inner pot,
C: Offset amount.

Claims (1)

ゴムクローラの基体となる無端状ゴム弾性体と、このゴム弾性体中に一定ピッチをもって横並びに埋設された芯金と、この芯金を外囲いし埋設されたスチールコード列とからなり、前記芯金はゴムクローラの内周面より突出する一対の脱輪防止用突起と、隣り合う芯金に向ってのびる横ずれ防止用膨出部とが備えられ、この膨出部は前記脱輪防止用突起の直下に形成されると共に、クローラ幅方向視にて少なくとも一部が重複する構成を備えたゴムクローラであって、前記脱輪防止用突起は、前記芯金の翼部よりゴムクローラ長手方向に向けて千鳥状に張り出し、隣接する脱輪防止用突起間に凹部を形成すると共に、クローラ幅方向視にて膨出部の重複中心部位と凹部の底部中心部位とを合致させないように構成したことを特徴とするゴムクローラの構造。An endless rubber elastic body serving as a base of a rubber crawler, a core metal embedded side by side with a fixed pitch in the rubber elastic body, and a steel cord row that surrounds and is embedded in the core metal, the core The gold is provided with a pair of anti-roll-out projections protruding from the inner peripheral surface of the rubber crawler and a lateral-slip-preventing bulging portion extending toward the adjacent cored bar. The crawler is a rubber crawler that is formed immediately below and at least partially overlaps when viewed in the crawler width direction, wherein the protrusion for preventing wheel removal is longer in the longitudinal direction of the rubber crawler than the wing portion of the cored bar. Projected in a zigzag pattern, formed with recesses between adjacent anti-roll-off projections, and configured so that the overlapping center part of the bulging part and the bottom center part of the recess did not match when viewed in the crawler width direction Rubber rubber characterized by Structure of over La.
JP19417395A 1995-07-05 1995-07-05 Structure of rubber track Expired - Lifetime JP3744976B2 (en)

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Application Number Priority Date Filing Date Title
JP19417395A JP3744976B2 (en) 1995-07-05 1995-07-05 Structure of rubber track

Publications (2)

Publication Number Publication Date
JPH0920271A JPH0920271A (en) 1997-01-21
JP3744976B2 true JP3744976B2 (en) 2006-02-15

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JP19417395A Expired - Lifetime JP3744976B2 (en) 1995-07-05 1995-07-05 Structure of rubber track

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Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010228483A (en) * 2009-03-26 2010-10-14 Bridgestone Corp Rubber crawler
JP7310375B2 (en) * 2019-07-03 2023-07-19 住友ゴム工業株式会社 elastic crawler

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