JPH0679182A - Metal carrier for exhaust gas cleaning catalyst - Google Patents

Abstract

PURPOSE:To prevent the generation of a crack or the like on a honeycomb body by eliminating the joining of the honeycomb body with an outer cylinder and reducing further thermal stress generated on the honeycomb body. CONSTITUTION:A metal carrier is composed of a honeycomb body 1, an outer cylinder 3 storing the honeycomb body 1, an intermediate cylinder 2 interposed between the honeycomb body 1 and the outer cylinder 3 and jointed with the outer cylinder 3 by only a part in the axial direction and a couple of stopper rings 4 retained by the intermediate cylinder 2 and being in contact with the front and rear end faces of the honeycomb body 1 respectively. Thermal expansibility of the intermediate cylinder 2 is almost same as that of the honeycomb body 1, and a ring space 20 allowing the expansion of the honeycomb body 1 in its diameter direction is formed between the intermediate cylinder 2 and the honeycomb body 1. As the intermediate cylinder 2 is expanded and shrinked smilarly with the expansion and shrinkage of the honeycomb body 1, the generation of thermal expansion on the honeycomb body can be prevented.

Description

【発明の詳細な説明】Detailed Description of the Invention

【０００１】[0001]

【産業上の利用分野】本発明は、内燃機関の排気ガス浄
化触媒に用いられるメタル担体に関し、詳しくは、ハニ
カム体、中間筒及び外筒の３つの構成からなるメタル担
体に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a metal carrier used for an exhaust gas purifying catalyst of an internal combustion engine, and more particularly to a metal carrier having a honeycomb structure, an intermediate cylinder and an outer cylinder.

【０００２】[0002]

【従来の技術】排気ガス浄化触媒用メタル担体として
は、平板及び波板が重ねられてロール状に巻回されたハ
ニカム体と、そのハニカム体を収納する外筒とからなる
ものが多く用いられている。このメタル担体では、ハニ
カム体の平板と波板、及び外筒とハニカム体とは、ロウ
付け接合や拡散接合によって一体的に接合されている。2. Description of the Related Art As a metal carrier for an exhaust gas purifying catalyst, there is often used a metal carrier comprising a honeycomb body in which a flat plate and a corrugated plate are stacked and wound in a roll shape, and an outer cylinder for housing the honeycomb body. ing. In this metal carrier, the flat plate and the corrugated plate of the honeycomb body, and the outer cylinder and the honeycomb body are integrally bonded by brazing or diffusion bonding.

【０００３】[0003]

【発明が解決しようとする課題】ところが上記した従来
のメタル担体では、高温の排気ガスとの接触、触媒反応
による発熱、外筒からの外部への熱の放出、ハニカム体
と外筒との熱容量の差などにより、温度の分布が生じそ
の結果ハニカム体に熱応力が発生して、ハニカム体に亀
裂が生じる場合があった。However, in the above-mentioned conventional metal carrier, contact with high-temperature exhaust gas, heat generation due to catalytic reaction, heat release from the outer cylinder to the outside, heat capacity between the honeycomb body and the outer cylinder. In some cases, the difference in temperature causes a temperature distribution, and as a result, thermal stress is generated in the honeycomb body and cracks are generated in the honeycomb body.

【０００４】ハニカム体に熱応力が発生するのを防止す
るには、ハニカム体の膨張の自由度を高めるのが最適で
あり、そのためにはハニカム体と外筒との接合をやめる
のが最良である。そこで例えば図５に示すように、外筒
１００の軸方向両側端部にそれぞれストッパリング１０
１，１０２を固定し、ストッパリング１０１とストッパ
リング１０２の間にハニカム体１０３を保持する構成が
考えられる。このように構成すれば、ハニカム体１０３
と外筒１００との間に環状の間隙１０４を形成すること
ができ、ハニカム体１０３の径方向の膨張の自由度が向
上すると想定される。In order to prevent thermal stress from being generated in the honeycomb body, it is optimum to increase the degree of freedom of expansion of the honeycomb body. For that purpose, it is best to stop the joining of the honeycomb body and the outer cylinder. is there. Therefore, for example, as shown in FIG.
A configuration is conceivable in which the honeycomb bodies 103 are held between the stopper rings 101 and 102 by fixing 1 and 102. With this configuration, the honeycomb body 103
It is assumed that the annular gap 104 can be formed between the outer cylinder 100 and the outer cylinder 100, and the degree of freedom of radial expansion of the honeycomb body 103 is improved.

【０００５】ところが上記構成のメタル担体としても、
ハニカム体１０３の軸方向両端面はそれぞれストッパリ
ング１０１，１０２に当接しているため、軸方向の膨張
の自由度が得られず熱応力が発生することが考えられ
る。ストッパリング１０１，１０２がハニカム体１０３
に当接しない状態とすると、ハニカム体１０３の外筒１
００内での保持が困難になることはいうまでもない。However, even with the metal carrier having the above structure,
Since both axial end surfaces of the honeycomb body 103 are in contact with the stopper rings 101 and 102, respectively, it is conceivable that the degree of freedom of axial expansion cannot be obtained and thermal stress is generated. The stopper rings 101 and 102 are honeycomb bodies 103.
The outer cylinder 1 of the honeycomb body 103 when not in contact with the
Needless to say, it becomes difficult to maintain the value within 00.

【０００６】本発明はこのような事情に鑑みてなされた
ものであり、ハニカム体と外筒との接合を廃止するとと
もにハニカム体に発生する熱応力をさらに低減し、以て
ハニカム体に亀裂などが生じるのを一層防止することを
目的とする。The present invention has been made in view of the above circumstances, and eliminates the joining of the honeycomb body and the outer cylinder and further reduces the thermal stress generated in the honeycomb body, so that the honeycomb body is cracked or the like. The purpose is to further prevent the occurrence of.

【０００７】[0007]

【課題を解決するための手段】上記課題を解決する本発
明の排気ガス浄化触媒用メタル担体は、平板及び波板が
重ねられてロール状に巻回されたハニカム体と、ハニカ
ム体を収納する外筒と、ハニカム体と外筒の間に介在さ
れ外筒と軸方向の一部でのみ接合された中間筒と、中間
筒に保持されハニカム体の前後端面とそれぞれ当接する
一対のストッパリングと、からなり、中間筒はハニカム
体と略同一の熱膨張率であり、中間筒とハニカム体との
間にはハニカム体の径方向の膨張を許容する環状の間隙
が形成されていることを特徴とする。[MEANS FOR SOLVING THE PROBLEMS] An exhaust gas purifying catalyst metal carrier of the present invention which solves the above problems accommodates a honeycomb body in which a flat plate and a corrugated plate are stacked and wound in a roll shape, and a honeycomb body. An outer cylinder, an intermediate cylinder interposed between the honeycomb body and the outer cylinder and joined to the outer cylinder only at a part in the axial direction, and a pair of stopper rings held by the intermediate cylinder and abutting on the front and rear end faces of the honeycomb body, respectively. The intermediate cylinder has substantially the same coefficient of thermal expansion as the honeycomb body, and an annular gap that allows the honeycomb body to expand in the radial direction is formed between the intermediate cylinder and the honeycomb body. And

【０００８】ハニカム体は、平板と波板とを重ねた状態
でロール状に巻いて形成されている。波板は、通常平板
を波形状に曲折して形成され、通常平板と同材質で略同
一板厚を有している。この平板及び波板は、従来と同様
に例えばＡｌ−Ｃｒ−Ｆｅ合金、ステンレス鋼などから
形成される。そして限られた体積中にできるだけ多くの
ハニカム通路の面積を確保することが好ましいことか
ら、板厚は例えば０．０５ｍｍなど比較的薄いものが用
いられる。このハニカム体は、例えば波板の頂部にロウ
材が塗布された状態で平板と重ねてロール状に巻かれて
形成され、その後加熱によりロウ付けされて一体的に接
合される。また、拡散接合により一体化することもでき
る。The honeycomb body is formed by rolling a flat plate and a corrugated plate in a roll shape. The corrugated plate is usually formed by bending a flat plate into a corrugated shape, and is made of the same material as the normal flat plate and has substantially the same plate thickness. The flat plate and the corrugated plate are made of, for example, an Al—Cr—Fe alloy, stainless steel, or the like as in the conventional case. Since it is preferable to secure as many honeycomb passage areas as possible in a limited volume, a relatively thin plate having a thickness of 0.05 mm is used. This honeycomb body is formed by, for example, being rolled on a flat plate in a state where a brazing material is applied to the top of a corrugated plate, and then being brazed by heating to be integrally joined. Also, they can be integrated by diffusion bonding.

【０００９】外筒は、例えばステンレス鋼製など従来と
同様のものを用いることができ、その板厚は従来と同様
に通常１〜２ｍｍ程度である。中間筒は、熱膨張率がハ
ニカム体と略同一である。これにより後述するように軸
方向の膨張の自由度が得られる。また、中間筒にスリッ
トなどを設けて、径方向に変形しやすくすることも好ま
しい。この中間筒にはハニカム体の前後端面とそれぞれ
当接する一対のストッパリングが保持されている。この
ストッパリングの間にハニカム体が保持される。なお、
ストッパリングもハニカム体と略同一の熱膨張率とすれ
ば、ハニカム体の軸方向の膨張の自由度が一層向上す
る。The outer cylinder may be made of stainless steel, for example, which is the same as the conventional one, and its plate thickness is usually about 1 to 2 mm as in the conventional case. The coefficient of thermal expansion of the intermediate cylinder is substantially the same as that of the honeycomb body. As a result, a degree of freedom of expansion in the axial direction can be obtained as described later. It is also preferable to provide a slit or the like on the intermediate cylinder to facilitate radial deformation. A pair of stopper rings that are in contact with the front and rear end faces of the honeycomb body are held by the intermediate cylinder. The honeycomb body is held between the stopper rings. In addition,
If the stopper ring has substantially the same coefficient of thermal expansion as the honeycomb body, the degree of freedom of axial expansion of the honeycomb body is further improved.

【００１０】またハニカム体は、中間筒の内周表面との
間に環状の間隙を有する状態で保持されている。これに
より径方向の膨張の自由度が得られる。Further, the honeycomb body is held in a state having an annular gap between the honeycomb body and the inner peripheral surface of the intermediate cylinder. This gives a degree of freedom of radial expansion.

【００１１】[0011]

【作用】本発明の排気ガス浄化触媒用メタル担体では、
熱膨張率がハニカム体と略同一の中間筒にハニカム体が
保持され、かつ中間筒は外筒と軸方向の一部でのみ接合
されている。したがって使用時に排気ガスなどから加熱
され、ハニカム体が軸方向に膨張すると、中間筒も略同
一の膨張量で軸方向に膨張する。中間筒は外筒に軸方向
の一部でのみ接合されているので、中間筒の軸方向の膨
張はほとんど規制されない。したがって、一対のストッ
パリングどうしの距離はハニカム体の膨張・収縮と同期
して拡大・縮小されるため、ハニカム体の端面にストッ
パリングから応力が作用したり、逆に距離が離れ過ぎて
ハニカム体の保持力が低下したりするような不具合がな
い。In the metal carrier for exhaust gas purifying catalyst of the present invention,
The honeycomb body is held in an intermediate cylinder whose coefficient of thermal expansion is substantially the same as that of the honeycomb body, and the intermediate cylinder is joined to the outer cylinder only at a part in the axial direction. Therefore, when the honeycomb body is expanded in the axial direction by being heated by the exhaust gas or the like during use, the intermediate cylinder is also expanded in the axial direction with substantially the same expansion amount. Since the intermediate cylinder is joined to the outer cylinder only partially in the axial direction, the expansion of the intermediate cylinder in the axial direction is hardly regulated. Therefore, since the distance between the pair of stopper rings expands and contracts in synchronization with the expansion and contraction of the honeycomb body, stress is applied to the end faces of the honeycomb body from the stopper ring, and conversely the distance is too large and the honeycomb body is too large. There is no problem that the holding power of the

【００１２】また、ハニカム体と中間筒の間には環状の
間隙が存在している。ハニカム体の径方向の膨張量は、
中間筒の径方向の膨張量より大きいのであるが、ハニカ
ム体が径方向に膨張しても、その間隙がその膨張を許容
するため、径方向においても熱応力が発生するのが防止
されている。An annular gap exists between the honeycomb body and the intermediate cylinder. The expansion amount of the honeycomb body in the radial direction is
Although it is larger than the expansion amount of the intermediate cylinder in the radial direction, even if the honeycomb body expands in the radial direction, the gap allows the expansion, so that thermal stress is also prevented from occurring in the radial direction. .

【００１３】[0013]

【実施例】以下、実施例により具体的に説明する。 （実施例１）図１に本発明の一実施例の排気ガス浄化触
媒用メタル担体を示す。このメタル担体は、ハニカム体
１と、中間筒２と、外筒３と、一対のストッパリング４
とから構成されている。EXAMPLES The present invention will be specifically described below with reference to examples. (Embodiment 1) FIG. 1 shows a metal carrier for an exhaust gas purifying catalyst according to an embodiment of the present invention. This metal carrier includes a honeycomb body 1, an intermediate cylinder 2, an outer cylinder 3, and a pair of stopper rings 4.
It consists of and.

【００１４】ハニカム体１は、板厚０．０５ｍｍのＦｅ
−Ｃｒ−Ａｌ合金製の平板と波板とが重ねられ、ロール
状に巻かれて形成されている。中間筒２はハニカム体の
外径より大きな内径をもち、ハニカム体１と略同一の熱
膨張率をもつように構成されている。外筒３は、中間筒
２の外径より僅かに大きい内径をもち、フェライト系ス
テンレス鋼から厚さ１〜２ｍｍで形成されている。The honeycomb body 1 is made of Fe having a thickness of 0.05 mm.
A flat plate made of a -Cr-Al alloy and a corrugated plate are stacked and formed by being rolled. The intermediate cylinder 2 has an inner diameter larger than the outer diameter of the honeycomb body, and is configured to have substantially the same coefficient of thermal expansion as the honeycomb body 1. The outer cylinder 3 has an inner diameter slightly larger than the outer diameter of the intermediate cylinder 2, and is made of ferritic stainless steel with a thickness of 1 to 2 mm.

【００１５】一対のストッパリング４は、ハニカム体１
の外径より小さい内径をもち、中間筒２の両端部内周面
にそれぞれロウ付け接合されている。そしてハニカム体
１が中間筒２内に配置され、一対のストッパリング４が
それぞれハニカム体１の端面に当接して、ハニカム体１
の軸方向の相対移動を規制している。また、ハニカム体
１の外周表面と中間筒２の内周表面の間には、環状の間
隙２０が形成されている。The pair of stopper rings 4 is used for the honeycomb body 1.
Has an inner diameter smaller than the outer diameter, and is brazed to the inner peripheral surfaces of both ends of the intermediate cylinder 2. Then, the honeycomb body 1 is arranged in the intermediate cylinder 2, and the pair of stopper rings 4 are brought into contact with the end faces of the honeycomb body 1, respectively.
The relative movement in the axial direction of is regulated. An annular gap 20 is formed between the outer peripheral surface of the honeycomb body 1 and the inner peripheral surface of the intermediate cylinder 2.

【００１６】そして中間筒２と外筒３とは、軸方向中央
部に形成された接合部６でのみロウ付け接合されてい
る。上記のように構成された本実施例の排気ガス浄化触
媒用メタル担体の使用時には、中間筒２は接合部６のみ
で外筒３に接合され、他の部分は非接合となっているの
で、外筒３と中間筒２の間で軸方向に発生する応力が低
減され、かつ中間筒２の軸方向の伸縮が許容されてい
る。したがってハニカム体１と中間筒２は軸方向に同じ
ように膨張・収縮するため、軸方向の膨張・収縮の動き
により発生する熱応力は僅少となる。また、ハニカム体
１は径方向には拘束されていないので、径方向に作用す
る熱応力も僅少となる。The intermediate cylinder 2 and the outer cylinder 3 are brazed and joined only at a joint 6 formed at the central portion in the axial direction. When the metal carrier for exhaust gas purifying catalyst of the present embodiment configured as described above is used, since the intermediate cylinder 2 is joined to the outer cylinder 3 only at the joint portion 6 and the other portions are not joined, The stress generated in the axial direction between the outer cylinder 3 and the intermediate cylinder 2 is reduced, and the expansion and contraction of the intermediate cylinder 2 in the axial direction is allowed. Therefore, since the honeycomb body 1 and the intermediate cylinder 2 expand and contract in the same manner in the axial direction, the thermal stress generated by the expansion and contraction movement in the axial direction becomes small. Moreover, since the honeycomb body 1 is not constrained in the radial direction, the thermal stress acting in the radial direction is also small.

【００１７】すなわち本実施例のメタル担体によれば、
使用時の熱膨張・収縮の動きに起因する熱応力の発生
が、ハニカム体１の軸方向及び径方向ともに防止されて
いるため、熱応力の繰り返し作用による亀裂の発生が防
止され長寿命となる。ている。なお、中間筒２に端面か
ら軸方向に延びるスリットなどを形成して、中間筒２を
径方向に変形容易とすれば、たとえハニカム体１が径方
向に大きく膨張して中間筒２に当接したとしても、中間
筒２は中央部でのみ外筒３に接合されているのであるか
ら大部分は径方向に変形可能であり、中間筒２の変形に
より応力を吸収することができ、ハニカム体１に作用す
る熱応力を一層低減することができる。 （実施例２）図２に示す第２の実施例のメタル担体は、
複数（４個）のハニカム体１０〜１３がそれぞれストッ
パリング４０〜４４に当接した状態で中間筒２内に保持
されていること以外は実施例１と同様の構成である。That is, according to the metal carrier of this embodiment,
Since generation of thermal stress due to thermal expansion / contraction during use is prevented in both the axial direction and the radial direction of the honeycomb body 1, generation of cracks due to repeated action of thermal stress is prevented, resulting in long life. . ing. If the intermediate cylinder 2 is formed with a slit or the like extending in the axial direction from the end face to facilitate the radial deformation of the intermediate cylinder 2, even if the honeycomb body 1 is largely expanded in the radial direction and abuts on the intermediate cylinder 2. Even if it is done, since the intermediate cylinder 2 is joined to the outer cylinder 3 only at the central portion, most of the intermediate cylinder 2 can be deformed in the radial direction, and the deformation of the intermediate cylinder 2 can absorb the stress. The thermal stress acting on 1 can be further reduced. (Embodiment 2) The metal carrier of the second embodiment shown in FIG.
The configuration is the same as that of the first embodiment, except that a plurality (four) of honeycomb bodies 10 to 13 are held in the intermediate cylinder 2 while being in contact with the stopper rings 40 to 44, respectively.

【００１８】ストッパリング４０〜４４は、中間筒２の
両端に位置するストッパリング４０，４４のみが中間筒
２と接合され、他のストッパリング４１〜４３は中間筒
２内を軸方向にスライド移動可能となっている。またハ
ニカム体１０〜１３は、それぞれ両端でストッパリング
４０〜４４に当接し、ハニカム体どうしの間にはそれぞ
れトッパリングの形状で決定される円柱状の空間１５が
形成されている。さらに、ハニカム体１０〜１３と中間
筒２との間には、それぞれ環状の間隙２１〜２４が形成
されている。Of the stopper rings 40 to 44, only the stopper rings 40 and 44 located at both ends of the intermediate cylinder 2 are joined to the intermediate cylinder 2, and the other stopper rings 41 to 43 slide in the intermediate cylinder 2 in the axial direction. It is possible. Further, the honeycomb bodies 10 to 13 are in contact with the stopper rings 40 to 44 at both ends, and a cylindrical space 15 determined by the shape of the topper ring is formed between the honeycomb bodies. Further, annular gaps 21 to 24 are formed between the honeycomb bodies 10 to 13 and the intermediate cylinder 2, respectively.

【００１９】本実施例のメタル担体では、それぞれのハ
ニカム体１０〜１３は実施例１のハニカム体１と同様の
作用効果を奏する。そして両端以外のストッパリング４
１〜４３は軸方向に移動可能であるため、軸方向で温度
に高低が生じてそれぞれのハニカム体の膨張量が異なっ
た場合にも、ストッパリング４１〜４３はそれぞれのハ
ニカム体の膨張量に対応して移動し、それぞれのハニカ
ム体に軸方向の応力が作用するのが防止される。In the metal carrier of this embodiment, the honeycomb bodies 10 to 13 have the same effects as the honeycomb body 1 of the first embodiment. And stopper ring 4 other than both ends
1 to 43 are movable in the axial direction, the stopper rings 41 to 43 do not change the expansion amount of each honeycomb body even when the temperature rises or falls in the axial direction and the expansion amount of each honeycomb body is different. Corresponding movements are prevented and axial stress is prevented from acting on the respective honeycomb bodies.

【００２０】また、両端以外のストッパリング４１〜４
３により、ハニカム体間の空間１５の容積が確保され
る。この空間１５により排気ガスが乱流化し、排気ガス
の径方向の温度が均一化し、したがってそれぞれのハニ
カム体間の温度差も小さくなり浄化率が向上する効果が
得られる。 （実施例３）上記実施例のメタル担体では、ストッパリ
ングがハニカム体に当接しているため、エンジン振動や
排気ガスの圧力などによってハニカム体がストッパリン
グから応力を受ける場合がある。これを回避するため図
３に示す第３の実施例では、実施例２と同様のハニカム
体１０〜１３をそれぞれミニ外筒５と一体化して用いた
こと以外は実施例１と同様である。Further, the stopper rings 41 to 4 other than the both ends
3, the volume of the space 15 between the honeycomb bodies is secured. Exhaust gas becomes turbulent due to this space 15, and the temperature of the exhaust gas in the radial direction is made uniform. Therefore, the temperature difference between the respective honeycomb bodies is reduced, and the purification rate is improved. (Embodiment 3) In the metal carrier of the above embodiment, since the stopper ring is in contact with the honeycomb body, the honeycomb body may receive stress from the stopper ring due to engine vibration or exhaust gas pressure. In order to avoid this, the third embodiment shown in FIG. 3 is the same as the first embodiment except that the same honeycomb bodies 10 to 13 as those of the second embodiment are used integrally with the mini outer cylinder 5.

【００２１】すなわち、ミニ外筒５はハニカム体１０〜
１３と同程度の熱膨張率と剛性をもち、板厚が０．５〜
２ｍｍである。そしてそれぞれにハニカム体１０〜１３
が挿入され、ロウ付け接合又は拡散接合で一体的に接合
されている。ここでミニ外筒５の長さは、それぞれハニ
カム体１０〜１３より長く、ハニカム体１０〜１３の両
端から外方へ突出するように構成されている。そして実
施例２と同様にストッパリング４０〜４４とともに中間
筒２内に収納され、ハニカム体どうしの間にはそれぞれ
空間１５が形成されている。That is, the mini outer cylinder 5 includes the honeycomb bodies 10 to 10.
It has the same coefficient of thermal expansion and rigidity as 13 and a plate thickness of 0.5-
It is 2 mm. And honeycomb bodies 10 to 13 respectively
Is inserted and integrally joined by brazing joining or diffusion joining. Here, the length of the mini outer cylinder 5 is longer than that of the honeycomb bodies 10 to 13, respectively, and is configured to project outward from both ends of the honeycomb bodies 10 to 13. Then, as in the second embodiment, it is housed in the intermediate cylinder 2 together with the stopper rings 40 to 44, and spaces 15 are formed between the honeycomb bodies.

【００２２】本実施例のメタル担体では、ストッパリン
グ４０〜４４はそれぞれミニ外筒５に当接しているの
で、エンジン振動や排気ガスの圧力などによってハニカ
ム体１０〜１３がストッパリングから応力を受けること
がない。そしてハニカム体１０〜１３とミニ外筒５及び
中間筒２が同程度の熱膨張率であるため、ハニカム体の
軸方向膨張は実施例１及び実施例２と同様に許容され
る。またハニカム体の径方向の膨張は、ミニ外筒５がハ
ニカム体と同程度の熱膨張率であり、かつミニ外筒５と
中間筒２の間に環状の空間２１が形成されているため、
従来に比べて許容されている。 （実施例４）図４に示す第４の実施例は、両端以外のス
トッパリング４１〜４３を用いず、ミニ外筒５の軸長を
延長して隣接するミニ外筒５どうしを当接させたこと以
外は実施例３と同様の構成である。In the metal carrier of this embodiment, since the stopper rings 40 to 44 are in contact with the mini outer cylinder 5, the honeycomb bodies 10 to 13 receive stress from the stopper ring due to engine vibration, exhaust gas pressure and the like. Never. Since the honeycomb bodies 10 to 13 and the mini outer cylinder 5 and the intermediate cylinder 2 have similar thermal expansion coefficients, axial expansion of the honeycomb body is allowed as in the first and second embodiments. Further, the expansion of the honeycomb body in the radial direction has the same coefficient of thermal expansion as the mini outer cylinder 5 and the honeycomb body, and the annular space 21 is formed between the mini outer cylinder 5 and the intermediate cylinder 2.
It is more acceptable than before. (Embodiment 4) In the fourth embodiment shown in FIG. 4, without using the stopper rings 41 to 43 other than the both ends, the axial length of the mini outer cylinders 5 is extended to bring the adjacent mini outer cylinders 5 into contact with each other. Except for this, the configuration is the same as that of the third embodiment.

【００２３】本実施例のメタル担体では、実施例３のメ
タル担体に比べてストッパリングの数が少なくてすみ、
コストを低減することができる。The metal carrier of this embodiment requires fewer stopper rings than the metal carrier of the third embodiment,
The cost can be reduced.

【００２４】[0024]

【発明の効果】すなわち本発明の排気ガス浄化触媒用メ
タル担体によれば、ハニカム体の膨張が軸方向及び径方
向の両方で許容されているため、熱応力の発生が確実に
防止され、ハニカム体の亀裂の発生などの不具合を一層
確実に防止することができるので、従来のメタル担体に
比べて格段に長寿命となる。According to the exhaust gas purifying catalyst metal carrier of the present invention, since the expansion of the honeycomb body is allowed in both the axial direction and the radial direction, the generation of thermal stress is reliably prevented, and the honeycomb body is surely prevented. Since it is possible to more reliably prevent problems such as cracking of the body, the life is significantly longer than that of the conventional metal carrier.

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

【図１】本発明の一実施例のメタル担体の断面図であ
る。FIG. 1 is a sectional view of a metal carrier according to an embodiment of the present invention.

【図２】本発明の第２の実施例のメタル担体の断面図で
ある。FIG. 2 is a sectional view of a metal carrier according to a second embodiment of the present invention.

【図３】本発明の第３の実施例のメタル担体の断面図で
ある。FIG. 3 is a sectional view of a metal carrier according to a third embodiment of the present invention.

【図４】本発明の第４の実施例のメタル担体の断面図で
ある。FIG. 4 is a sectional view of a metal carrier according to a fourth embodiment of the present invention.

【図５】本発明のメタル担体が想起される過程で想起さ
れたメタル担体の断面図である。FIG. 5 is a cross-sectional view of a metal carrier recalled in the process of recalling the metal carrier of the present invention.

【符号の説明】[Explanation of symbols]

１：ハニカム体 ２：中間筒
３：外筒 ４：ストッパリング ５：ミニ外筒
６：接合部 １５：空間 ２０：環状の間隙 １０〜１３：ハニカム体 ２１〜２４：間隙 ４０
〜４４：ストッパリング1: Honeycomb body 2: Intermediate tube
3: Outer cylinder 4: Stopper ring 5: Mini outer cylinder
6: Joining part 15: Space 20: Annular gap 10-13: Honeycomb body 21-24: Gap 40
~ 44: Stopper ring

Claims (1)

【特許請求の範囲】[Claims] 【請求項１】 平板及び波板が重ねられてロール状に巻
回されたハニカム体と、該ハニカム体を収納する外筒
と、該ハニカム体と該外筒の間に介在され該外筒と軸方
向の一部でのみ接合された中間筒と、該中間筒に保持さ
れ該ハニカム体の前後端面とそれぞれ当接する一対のス
トッパリングと、からなり、 該中間筒は該ハニカム体と略同一の熱膨張率であり、該
中間筒と該ハニカム体との間には該ハニカム体の径方向
の膨張を許容する環状の間隙が形成されていることを特
徴とする排気ガス浄化触媒用メタル担体。1. A honeycomb body in which a flat plate and a corrugated plate are superposed and wound in a roll shape, an outer cylinder for housing the honeycomb body, and an outer cylinder interposed between the honeycomb body and the outer cylinder. It comprises an intermediate cylinder joined only in a part in the axial direction and a pair of stopper rings held by the intermediate cylinder and abutting on the front and rear end faces of the honeycomb body, respectively, the intermediate cylinder being substantially the same as the honeycomb body. A metal carrier for an exhaust gas purification catalyst, which has a coefficient of thermal expansion and has an annular gap formed between the intermediate cylinder and the honeycomb body to allow the honeycomb body to expand in the radial direction.