JPH07303841A - Metallic support - Google Patents

Abstract

PURPOSE:To improve the durability of a metallic honeycomb to the separation from a metal casing by installing fixing parts which fix the ends of the plain belts and/or the corrugated belts of a metallic honeycomb of an S-shaped type etc., to the inner wall surface of the metal casing. CONSTITUTION:A desired number of stacks (S1-Sn, n is an integer of 1 or greater) are used which are formed by laminating alternately plain belts 1 and corrugated belts 2, which are made of thin metal plates, in a desired number of stages. Jigs W1, W2 for winding are arranged on the surface of the central part of each stack S1, and the stack is molded by winding in the same direction around the jigs so that the plain belts 1 and the corrugated belts 2 of the stack S1 are brought into contact with the inner wall surface of a casing C to make a metallic honeycomb H1. In this operation, the ends of the belts 1, 2 of the stack S1 are fixed to the inner wall surface of the casing C by fixing parts D.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention generally relates to a honeycomb structure made of metal (hereinafter referred to as metal) for carrying an exhaust gas purifying catalyst which is used as an exhaust gas purifying means for automobiles by being inserted in an exhaust system. A honeycomb body), and a metal casing (hereinafter, referred to as a metal casing) that encloses the metal honeycomb body.
Also called a metal casing. ) As a main component.

More specifically, according to the present invention, in particular, the metal carrier is composed of an S-shaped or tongue-shaped metal honeycomb body for carrying an exhaust gas purifying catalyst and a metal casing having a special structure. An object of the present invention is to provide a metal carrier having improved durability against detachment (desorption) of both elements due to thermal stress generated inside the metal honeycomb body.

[0003]

2. Description of the Related Art Conventionally, in a vehicle exhaust gas purifying apparatus of this type, a ceramic monolith type carrier has been used as a honeycomb structure carrier for carrying an exhaust gas purifying catalyst (Pt, Pd, Rh, etc.). Instead, the metal monolith type is attracting attention. In general,
Metal monolithic metal carrier (MS, metal substrate) for supporting a catalyst for exhaust gas purification
Is a stack of heat-resistant thin steel plate flat strips and corrugated strips that come into contact with each other, and are spirally formed in a batch to form an exhaust gas passage in the axial direction. Of a winding type metal honeycomb body having a large number of mesh-like ventilation holes (cells), and a tubular metal casing having both ends opened for fitting and fixing the honeycomb body inside. It is something. By the roll forming of the flat plate-shaped strip material and the corrugated plate-shaped strip material, a large number of mesh-like ventilation passages (cells) serving as exhaust gas flow passages are automatically formed.

In the above-mentioned conventional metal carrier composed of a wound type metal honeycomb body and a metal casing, the wound type metal honeycomb body and the metal casing are heated to a high temperature of the exhaust gas itself and the exhaust gas. Firmly fixed by brazing or welding so as to withstand the thermal expansion and thermal stress that occur in a high temperature atmosphere due to the exothermic reaction with the exhaust gas purification catalyst, and also to withstand the severe vibration when driving a car. To be done. Further, it goes without saying that the abutting portions of the flat plate-shaped band member and the corrugated plate-shaped band member forming the metal honeycomb body are also fixed by various methods such as brazing and welding.

Although the wound-type metal honeycomb body constituting the above-mentioned metal carrier is superior to the ceramic monolith-type one in various respects, it has a large thermal stress generated under the severe thermal conditions. On the other hand, there is still room for improvement. Particularly, since excessive thermal stress concentrates and accumulates on the outer peripheral portion of the metal honeycomb body that abuts on the inner wall surface of the metal casing and a portion in the vicinity thereof, a flat plate-shaped strip material or a corrugated plate-shaped strip material forming the metal honeycomb body is formed. Buckles, breaks or cracks, and reduces durability.
This is because the outer peripheral portion of the metal honeycomb body that comes into contact with the inner wall surface of the metal casing is composed of a set of flat plate-shaped strips and corrugated plate-shaped strips, and the set of strips is inside the metal casing. This is because they are in contact with each other along the wall surface, that is, they are joined in a planar manner, and the thermal stress generated inside the metal honeycomb body cannot be sufficiently absorbed and relaxed.

Recently, in place of the above-mentioned spiral-wound type metal honeycomb body, a minimum constituent unit constituting the metal honeycomb body, that is, a pair of flat plate-shaped strip material and corrugated plate-shaped strip material in abutting relationship In such a minimum structural unit, a metal honeycomb body having a structure in which each end of the minimum structural unit contacts the inner wall surface of the metal casing is proposed. For example,
As a metal honeycomb body having the above structure, Japanese Patent Laid-Open No. 62-27
No. 3051, Special Publication No. 3-502544, Special Publication 3-5
No. 02660, Japanese Patent Laid-Open No. 4-227855, etc., propose an S-shaped type, a tongue-shaped type, and an X-wrap type (swastoid) type metal honeycomb body.

The above-mentioned S-shaped type metal honeycomb body is superior to the conventional spiral wound type honeycomb body. This is because in the conventional wound type honeycomb body, one minimum constitutional unit composed of a set of flat plate-shaped strip and corrugated plate-shaped strip as described above is arranged along the inner wall surface of the metal casing. While abutting against each other, each end of a predetermined number of minimum constituent units abuts the inner wall surface of the metal casing, so that thermal stress can be absorbed and relieved at each end. This is because the durability of can be improved.

In various types of metal honeycomb bodies other than the wound type constituting the metal carrier described above, particularly in the S-shaped type or the honeycomb type metal honeycomb type,
The durability of the outer peripheral portion is improved as compared with the wound type metal honeycomb body as described above. However, there is an increasing demand for improvement in performance of a metal carrier having the S-shaped or honeycomb-shaped metal honeycomb body as a main component, for example, prevention of separation of the metal honeycomb body from the metal casing is required. Has been done.

When the metal honeycomb body is separated from the metal casing, the metal casing is separated from the metal casing by an external vibrational force applied to the metal casing, or by a large thermal stress generated inside the metal honeycomb body. This is because the force that promotes the separation acts between both members of the metal honeycomb body.

That is, the metal casing is relatively larger in the clockwise direction (or counterclockwise direction) than the metal honeycomb body inside due to the load of the vibration force from the outside in accordance with the direction of the load of the vibration force. It tries to shift (rotate), which causes separation between both members. In addition, due to the large thermal stress generated inside the metal honeycomb body, it becomes relatively large in the clockwise direction (or counterclockwise direction) depending on the winding direction of the flat band material and corrugated plate material of the metal honeycomb body. A displacement (which can be seen as a displacement as it rotates with the metal casing) will result in a separation between the two members. The above-described separation between the metal casing and the metal honeycomb body is a fatal defect for the metal carrier, and there is a demand for a metal carrier excellent in durability without separation for a long period of time.

[0011]

DISCLOSURE OF THE INVENTION The present invention is intended to solve the above-mentioned drawbacks of a metal carrier (MS) which mainly comprises an S-shaped or bead-shaped metal honeycomb body and a metal casing. It is a thing. The present inventors have diligently studied to solve the above-mentioned drawbacks. And
The present inventors, in consideration of the characteristics of the S-shaped type or the B-shaped type metal honeycomb body, have a direction to reduce the displacement (rotational displacement) in the structure of the metal casing, in other words, A study was conducted to improve the structure of the metal casing so as to reduce the displacement (rotational displacement) of the metal honeycomb body due to the interaction of the metal casing.

As a result, the structure of the metal casing is attached to the inner peripheral wall surface by the end portions of the flat plate-shaped band material and / or the corrugated plate-shaped band material forming the S-shaped type or the B-shaped type metal honeycomb body. It has been found that the above-mentioned drawbacks are effectively eliminated when the structure is such that the mating engaging portions are provided. The present invention has been completed based on the above findings, and is an S-shaped type or a tongue-shaped type metal having improved durability against separation between the metal honeycomb body and the metal casing according to the present invention. There is provided a metal carrier having a honeycomb body and a metal casing enclosing the metal honeycomb body as main components.

[0013]

SUMMARY OF THE INVENTION The present invention will be described in brief. The present invention relates to a desired number of stacks formed by alternately laminating flat-plate strips and corrugated strips made of thin metal plates in a desired number of stages. (S ₁
To S n, _n uses an integer of 1 or more), the with arranging a winding jig to the substantially central portion surface of each stack, winding in the same direction around the take-times jig molding Then, a metal honeycomb body for carrying an exhaust gas purifying catalyst having a structure in which each flat plate-shaped band member of each stack and a corrugated plate-shaped band member are in contact with an inner wall surface of a metal casing, and the metal honeycomb member In a metal carrier comprising a metal casing (C) to be housed, the metal casing (C) has an engaging portion on an inner peripheral wall surface thereof that engages with an end portion of the strip material forming each of the stacks. And a metal carrier.

The technical configuration and embodiments of the present invention will be described in detail below with reference to the drawings. Needless to say, the present invention is not limited to the illustrated one.

As described above, according to the present invention, among the metal honeycomb bodies having various structures, which are the main constituent elements of the metal carrier (MS), the S-shaped type or the bellows type is used in connection with the metal casing having the special structure. It is characterized by using a type of metal honeycomb body.

An outline including the structure of the S-shaped metal honeycomb body and the manufacturing process thereof is shown in FIGS. That is, FIG. 8 shows a front view of an S-shaped metal honeycomb body (H ₁ ), and FIG. 9 shows a stack (S ₁ ) used for manufacturing the metal honeycomb body (H ₁ ). FIG. 10 shows two winding molding jigs (W ₁ , W ₂ ) on the upper and lower outer surfaces of the substantially central portion of the stack (S ₁ ).
And a winding jig is wound in the same direction to manufacture an S-shaped metal honeycomb body (H ₁ ). 8 to 9, in order to clarify the drawings, a part of the flat plate-shaped strip (1) and the corrugated plate-shaped strip (2).
Are shown and the others are omitted.

As shown in the figure, the conventional S-shaped metal honeycomb body (H ₁ ) has a pair of flat plate-shaped strips (1) and corrugated plate-shaped strips (2) made of thin metal plates. Is manufactured with the minimum structural unit. That is, as shown in FIG. 9, a flat strip (1) and a corrugated strip (2) are alternately laminated in a desired number of steps to form a stack (S ₁ ). Then, as shown in FIG. 10, the outer surface (upper surface and lower surface) of the stack (S ₁ )
By disposing two winding forming jigs (W ₁ , W ₂ ) in the same and winding the jigs in the same direction (for example, clockwise direction), the S-shaped type shown in FIG. A metal honeycomb body (H ₁ ) is manufactured. In the figure, (3) indicates a cell. As shown in FIG. 8, the metal honeycomb body (H ₁ )
In the center of the sheet, the flat plate-shaped strip (1) and the corrugated plate-shaped strip (2) forming the stack have an S-shaped curved shape. Commonly called a letter type. Therefore, it should be noted that the S-shaped metal honeycomb body in the present invention is a general term for those manufactured by the manufacturing process.

In the prior art, the S-shaped metal honeycomb body (H
₁ ) as shown in FIG. 8, a metal casing (C '
) Filled and fixed inside the so-called metal carrier (MS ')
Are manufactured. The difference between the metallic casing (C) having the special structure of the present invention and the conventional metallic casing (C ′) will be described in detail in the embodiment of the present invention.

An outline of the structure and manufacturing process of the above-mentioned toe-shaped metal honeycomb body is shown in FIGS. Note that FIG. 11 is a front view of a metal honeycomb body (H ₂ ) of a barb type, but only some flat plate-shaped strips and corrugated strips are shown for the sake of clarity. Yes, others are omitted. The toe-shaped metal honeycomb body (H ₂ ) has a structure as shown in FIG.
It is manufactured as follows. That is, three stacks (S ₁ , S ₂ , S ₃ ) formed by laminating the flat strip (1) and the corrugated strip (2) in a desired number of stages are used, and the central angle of each stack is Contact them so that they are at 120 ° and combine them. Next, three winding molding jigs (W ₁ , W ₂ ,
W ₃ ) is arranged as shown in FIG. 12, and the jig is wound in the same direction (for example, clockwise direction) to form a toe-shaped metal honeycomb body (H ₂ ) shown in FIG.
Is produced. As shown in FIG. 11, this kind of metal honeycomb body has a three-sided shape at its center portion, and is commonly referred to as a "tabe-shaped metal honeycomb body" in the art. Needless to say, there may be four or more stacks. Also,
In the S-shaped type and the B-shaped type metal honeycomb bodies, the front (cross section) shape is not limited to the illustrated circular shape, and may be any shape such as a race track shape.

In the prior art, the Tomoe type metal honeycomb body (H ₂ ) manufactured as described above is packed in a metal casing (C ′) as shown in FIG. , So-called conventional type metal carrier (MS ') is manufactured. The difference between the specially constructed metal casing (C) of the present invention and the conventional metal casing (C ′) will be described in detail in the embodiments of the present invention.

The present invention is characterized in that the S-shaped type and the B-shaped type of metal honeycomb bodies are used among the metal honeycomb bodies of various structures as described above. There is a major feature in using a metal casing (C) having a special structure in. That is, the present invention provides a metal casing (C),
The inner peripheral wall surface has an end portion of a strip material forming the metal honeycomb body, more accurately, an engaging portion that engages with an end portion of a strip material forming each stack that is a constituent member of the metal honeycomb body. It has a feature in using things. Hereinafter, an embodiment of a metal casing (C) having a special structure of the present invention will be described with reference to the drawings.

FIG. 1 shows a metal honeycomb body (M
The metal casing (C) of the first embodiment constituting S).
FIG. As shown in FIG. 1, the metal casing (C) of the present invention has a corrugated concavo-convex engaging portion (D) on its inner peripheral wall surface. The concavo-convex engaging portion (D)
May be formed over the entire width in the axial direction of the metal casing (C), or may be formed in a part thereof. FIG. 2 is a partially enlarged sectional view of a metal carrier (MS) manufactured by housing the S-shaped metal honeycomb body (H ₁ ) in a metal casing (C). That is, FIG. 2 shows that the end portions of the flat plate-shaped strip (1) and the corrugated plate-shaped strip (2) forming the stack (S ₁ ) of the metal honeycomb body (H ₁ ) are the inner peripheral wall surfaces of the metal casing (C). It shows the part that comes into contact with. As shown in the figure, the ends of the strips (1, 2) are fixedly engaged with the concave and convex portions (D) of the metal casing (C). On the other hand, the conventional metal casing (C ') does not have the engaging portion (D), although the structure of its inner peripheral surface is not shown.

FIGS. 3 (a), 3 (b) and 4 show the separation of the metal honeycomb body (H ₁ ) and the metal casing (C), which are important constituent elements in the metal carrier (MS) of the present invention. It is a figure explaining that durability is improved. (1) When vibration force is applied from the outside: Fig. 3 (a),
As shown in (b), when an oscillating force is applied to the metal casing (C) from the outside, the metal casing (C) moves in the clockwise direction (a) or relative to the metal honeycomb body (H ₁ ). Attempts to make rotational displacement in the counterclockwise direction (b). In such a case, for example, when the metal casing (C) is rotationally displaced in the clockwise direction as shown in FIG. 3 (a), its rotational displacement force (F _c ) is engaged as shown in the figure. The band member (1,
It will be weakened by the anti-rotation force (F _H ) in the opposite direction of 2). That is, the detachment of both strips is suppressed. Also, when the metal casing (C) is about to rotate and change counterclockwise as shown in FIG. 3 (b),
The same can be said because the ends of the strips (1, 2) are fixedly engaged with the engaging portions (D). That is, in any case, the above-described reaction force (a force that tries to suppress the rotational displacement) is generated, and acts to suppress the separation of the metal honeycomb body from the metal casing.

(2) When thermal stress is generated inside the honeycomb body: When a metal carrier is used, the metal honeycomb is caused by the high temperature of the exhaust gas and the contact reaction between the exhaust gas and the carried exhaust gas purifying catalyst. The inside of the body is exposed to a high temperature and a large thermal stress is generated. Then, the deformation force based on the large thermal stress is applied to the strip material (1,
The deformation force is propagated along the winding direction of 2), that is, to the end portions of the strips (1, 2) in contact with the inner peripheral surface of the metal casing. Then, as shown in FIG. 4, each strip (1,
At the end of 2), a force (F _H ) is generated that tries to change (rotational change) relatively faster than the metal casing. However, since the end portions of the strips (1, 2) are engaged and fixed to the engaging portion (D) of the metal casing (C), the force is _generated by the reaction force (F _c ) from the metal casing (C). Is reduced. This suppresses the separation of the metal honeycomb body and the metal casing. The same thing can be said even when the rotational displacement force (F _H ) on the metal honeycomb body side shown in FIG. 4 is generated in the counterclockwise direction. Needless to say, this is only a rotational displacement force in the clockwise direction or the counterclockwise direction depending on the winding direction at the time of winding forming of the strips (1, 2), and in any case. The above-mentioned reaction force (a force for suppressing the rotational displacement) is generated, and acts to suppress the separation of the metal honeycomb body and the metal casing.

As described above, the metal carrier (M
In S), it is extremely important to form the engaging portion (D) on the inner peripheral wall surface of the metal casing (C). In the metal casing (C) of the first embodiment, the engagement portion (D) is formed on the entire inner peripheral wall surface. However, the present invention is not limited to this as in other embodiments described later. The engaging portion (D) may be formed as a corrugated uneven portion having a desired pitch width and height. The pitch width and height are
The distance is appropriately set in consideration of the interval between the strips (1, 2) forming the metal honeycomb body (H ₁ ), the size (wave height, pitch width) of the corrugated strip (2), and the like. Generally, the pitch width is 1 mm to 10 mm and the wave height is 0.2 mm to 1.0 mm.

In the present invention, in the above-mentioned S-shaped type or tongue-shaped type metal honeycomb body which constitutes the metal carrier (MS), the flat band member (1) and the corrugated plate shape which are the constituent members of the metal honeycomb body are provided. As the band member (2), one known in the art may be used. That is, as the flat strip (1), a strip used for manufacturing a normal metal monolith type honeycomb body, for example, chromium steel (chrome 13% to 25%), Fe-Cr 20%-
Heat-resistant stainless steel such as Al 5%, or heat-resistant stainless steel obtained by adding rare earth metal (REM) to improve high temperature oxidation resistance, etc.
A strip material of about 0.1 mm is used. As the corrugated strip material (2), the corrugated plate material (1) corrugated so as to have a predetermined substantially sine wave, substantially triangular wave or substantially trapezoidal wave is used. The flat strip (1) and the corrugated strip (2) containing Al, or the one provided with an Al layer on the surface thereof are heat-treated to form whiskers or mushrooms on the surface. Alumina (Al
It is preferable to deposit ₂ O ₃ ). The whisker-like alumina is preferable because it can firmly hold the washcoat layer for carrying the exhaust gas purifying catalyst such as Pt, Pd, and Rh.

In the present invention, the metal casing (C) constituting the metal carrier (MS) may be made of a material known in the art. As the material of the metal casing (C), heat-resistant steel of the same kind as the strip materials (1, 2) forming the metal honeycomb body may be used,
Further, a material having high heat resistance and corrosion resistance may be used. In addition, a double structure with the outer part of the metal material more heat and corrosion resistant than the inner part, specifically, one using ferritic stainless steel for the inner part and austenitic stainless steel for the outer part is used May be.

In the present invention, the abutting portions of the band members (the flat band member and the corrugated plate member) constituting the S-shaped or Tomoe-shaped metal honeycomb body are fixed, and the metal honeycomb body and the metal casing are fixed. The abutting portion may be fixed by brazing, welding, or the like according to a common method in the art. For example, in the case of the above-described brazing, the Ni-based or other high temperature brazing material well known in the art is soaked in an aqueous dispersion, the powder brazing material is applied after applying the binder, the plating technique is applied, and the high temperature of the amorphous brazing material foil is applied. The brazing may be performed by applying a brazing material by a conventionally known method such as applying a brazing foil. Needless to say, the above-described brazing may be performed by appropriately selecting the conditions under which the brazing material melts, such as heat treatment under reduced pressure in a non-oxidizing atmosphere.

FIG. 5 is a front view of the metal casing (C) of the second embodiment constituting the metal carrier (MS) of the present invention. The metal casing (C) of the second embodiment is largely different from the first embodiment (FIG. 1) in that the concave-convex engaging portion (D) is divided into four symmetrical portions on the inner peripheral wall surface (D ₁ ~ D ₄ ) It is a formed point.

FIG. 6 is a front view of a part of the metal casing (C) of the third embodiment constituting the metal carrier (MS) of the present invention. Metal casing (C) of the third embodiment
In, the engaging part (D) is the first embodiment (FIG. 1).
And a groove having substantially the same pitch width and depth.

FIG. 7 is a partial front view of the metal casing (C) of the fourth embodiment constituting the metal carrier (MS) of the present invention. In the metal casing (C) of the fourth embodiment, the engagement portion (D) has one recessed groove having a width wider than that of the third embodiment, in a portion corresponding to the four symmetrical portions of the second embodiment. Consists of

[0032]

EFFECTS OF THE INVENTION In the metal carrier of the present invention, the S-shaped or toe-shaped metal honeycomb body, which is the main component thereof, and the metal casing enclosing the metal honeycomb body have durability against separation. It is excellent.
And, the improvement of the durability against the separation between the two components is achieved by the structure of the metal honeycomb body and the metal casing having the engagement portion for engaging the end portion of the strip of the metal honeycomb body with the inner peripheral wall portion. It is expressed by the interaction with the structure.

The metal casing having the engaging portion can be manufactured simply and economically. Therefore, according to the present invention, in a metal carrier using an S-shaped or a tongue-shaped metal honeycomb body,
Provided is a metal carrier which has improved durability against separation of the metal honeycomb body and the metal casing and is excellent in economic efficiency.

[Brief description of drawings]

FIG. 1 is a front view of a metal casing (C) of a first embodiment constituting a metal carrier (MS) of the present invention.

FIG. 2 is a metal carrier (MS) including a metal casing (C) and a metal honeycomb body (H ₁ ) according to the first embodiment.
It is a partially enlarged front view of FIG.

[Fig. 3] Fig. 3 is a diagram for explaining the improvement of durability of the metal honeycomb body (H ₁ ) and the metal casing (C) with respect to the detachment in the present invention, and Fig. 3 (a) is a clockwise turning force on the metal casing side. When (b) acts, (b) shows the time when the counterclockwise turning force acts.

[Fig. 4] Fig. 4 is a diagram for explaining the improvement of durability of the metal honeycomb body and the metal casing with respect to separation in the present invention, and shows a case where a turning force is generated on the metal honeycomb body side by thermal stress.

FIG. 5 is a front view of the metal casing (C) of the second embodiment constituting the metal carrier (MS) of the present invention.

FIG. 6 is a partial front view of the metal casing (C) of the third embodiment constituting the metal carrier (MS) of the present invention.

FIG. 7 is a partial front view of the metal casing (C) of the fourth embodiment constituting the metal carrier (MS) of the present invention.

FIG. 8 is a front view in which a part of a conventional metal carrier (MS ′) having an S-shaped metal honeycomb body (H ₁ ) and a conventional metal casing (C ′) as main components is omitted. is there.

9 is a perspective view of a stack (S ₁ ) used for manufacturing the metal honeycomb body (H ₁ ) of FIG.

FIG. 10 is a diagram for explaining the roll forming by the roll forming jig of the stack (S ₁ ) of FIG.

FIG. 11 is a front view in which a part of a conventional metal carrier (MS ′) including a toe-shaped metal honeycomb body (H ₂ ) and a conventional metal casing (C ′) as main components is omitted. .

12 is a diagram for explaining a winding forming by winding molding jig three stacks constituting the metal honeycomb body of FIG. 12 _{(H 2) (S 1,} S 2, S 3).

[Explanation of symbols]

MS, MS '……… Metal carrier H ₁ , H ₂ ……… Metal honeycomb C, C ′ ……… Metal casing D …………… Engagement part 1 …………… Flat strip material 2 ……………… Corrugated strip material 3 ……………… Cells (mesh-like vent holes) S ₁ , S ₂ , S ₃ ……… Stack W ₁ , W ₂ , W ₃ …………… Jig for winding molding

Continuation of front page (51) Int.Cl. ⁶ Identification code Office reference number FI technical display area F01N 3/28 301 U

Claims (6)

[Claims] 1. A desired number of stacks (S _{1 to} S _n , n being an integer of 1 or more) formed by alternately laminating flat plate-shaped strips and corrugated strips made of thin metal plates in a desired number of stages. A winding jig is disposed on the surface of the central portion of each stack, and winding is performed in the same direction around the winding jig, and each flat strip and the corrugated material of each stack are used. It is composed of a metal honeycomb body for carrying an exhaust gas purifying catalyst, which has a structure in which a plate-shaped band member is in contact with the inner wall surface of a metal casing, and a metal casing (C) for accommodating the metal honeycomb body. In the metal carrier, the metal casing (C) is configured such that the inner peripheral wall surface thereof has an engaging portion that engages with an end portion of the strip material forming each of the stacks. Carrier. 2. The metal carrier according to claim 1, wherein the engaging portion is formed of a corrugated uneven portion having a desired pitch width and height. 3. The metal carrier according to claim 1, wherein the engaging portion is formed by a concave groove portion having a desired pitch width and depth. 4. The metal carrier according to claim 1, wherein the engaging portion is formed on the entire surface area of the inner peripheral wall of the metal casing (C). 5. The metal carrier according to claim 1, wherein the engagement portion is formed in a partial region of the inner peripheral wall of the metal casing (C). 6. The metal carrier according to claim 1, wherein the metal honeycomb body is of an S-shaped type or a tongue-shaped type.