Stock material or miscellaneous articles – Structurally defined web or sheet – Honeycomb-like
Reexamination Certificate
1999-08-04
2002-05-21
Jones, Deborah (Department: 1775)
Stock material or miscellaneous articles
Structurally defined web or sheet
Honeycomb-like
Reexamination Certificate
active
06391421
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention concerns a honeycomb body having a plurality of passages through which a fluid can flow and of which at least a portion is bordered and/or separated from each other with passage walls of a first thickness and at least a portion is bordered and/or separated from each other with passage walls of a second thickness. The first thickness is less than the second thickness and the honeycomb body has a wall structure which stabilizes it and which is formed with passage walls of the second thickness. Honeycomb bodies of this kind are used for example for the catalytic conversion of exhaust gases of an internal combustion engine.
International Patent Application WO 94/15712 discloses an extruded honeycomb body of a ceramic and/or metallic material having a plurality of passages which are separated from each other by partitions and which extend in approximately parallel relationship. The particular configuration of the wall structure increases elasticity in comparison with previously known honeycomb bodies.
Published, Non-Prosecuted Japanese Patent Application JP 54-150406 A describes an extruded honeycomb body in which the passages are separated from each other by wall portions which cross each other approximately perpendicularly. In regard to the cross-section of the honeycomb body, the partitions, within two zones which extend in mutually crossing relationship from a respective outward side of the honeycomb body to an oppositely disposed outward side of the honeycomb body, are of a thickness which is greater than the basic thickness of the partitions. Wall portions with thick partitions extend through the zones diagonally with respect to the direction in which the zones extend so that the wall portions are thick in parts thereof and thin in other parts thereof. In a test for mechanical strength, that honeycomb body was compared to two honeycomb bodies in which the thickness of the partitions in the described zones is equal to the basic thickness of the partitions. The result of the test, which is shown in tabular form in the Japanese Patent Application JP 54-150406 A, clearly shows that the honeycomb body with the thicker partitions in the zones enjoys no advantages whatsoever in terms of mechanical strength in comparison with the other two honeycomb bodies, and even has a lower level of mechanical strength in a direction diagonally with respect to the direction of the wall portions.
In recent years the development of new honeycomb bodies has been along the lines of reducing thermal capacity. With a lower level of thermal capacity it is possible in particular to achieve better cold start performance when using the honeycomb bodies in exhaust gas catalytic converters. The ignition temperature as from which the catalytic procedure begins is achieved earlier. Besides thermal capacity, the pressure drop that occurs in a gas flow through the honeycomb body also plays a part in the development involved. The pressure drop should be as low as possible. Both aims of development, namely a low thermal capacity and a low pressure drop, can be achieved by use of thin passage walls. However the passage walls cannot be made of just any arbitrarily thin dimension as the wall structure otherwise becomes unstable and is damaged under thermal and/or mechanical loadings.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide an extruded honeycomb body, in particular a catalytic converter carrier body, with a reinforced wall structure that overcomes the above-mentioned disadvantages of the prior art devices of this general type, in which the extruded honeycomb body has thin passage walls and a stable wall structure.
With the foregoing and other objects in view there is provided, in accordance with the invention, an extruded honeycomb assembly, including a honeycomb body having an edge, an interior, and an outside periphery, the honeycomb body containing:
first passage walls having a first thickness;
second passage walls having a second thickness thicker than the first thickness, the first passage walls and the second passage walls defining a plurality of passages therebetween through which a fluid can flow, at least a portion of the plurality of passages being at least one of enclosed and separated from each other by the first passage walls, and at least a part of the plurality of passages being one of enclosed and separated from each other by the second passage walls; and
a stabilizing wall structure formed of the second passage walls for stabilizing the honeycomb body, the second passage walls of the stabilizing wall structure being a plurality of substantially straight wall portions of the second thickness, the plurality of substantially straight wall portions disposed transversely with respect to the edge of the honeycomb body and one of extending from a respective outside into the interior of the honeycomb body and passing though the honeycomb body, and none of the plurality of passages being enclosed by the second passage walls forming the plurality of substantially straight wall portions.
The honeycomb body according to the invention has passage walls of a first thickness and passage walls of a second thickness, where the first thickness is less than the second thickness. Passage walls of the second thickness form a lattice-like wall structure that stabilizes the honeycomb body. The lattice-like wall structure has a plurality of approximately straight wall portions which, transversely with respect to the local configuration of the honeycomb body edge, extend from a respective outside into the interior of the honeycomb body or pass through the honeycomb body. The term wall portion is used to denote passage walls, which extend into each other, and form a plurality of passages.
In an embodiment of the honeycomb body in accordance with the invention a plurality of the wall portions pass through the interior of the honeycomb body from an outside thereof to an oppositely disposed outside. In that way, particularly in the regions of the edge of the honeycomb body from which the wall portions pass through the interior of the honeycomb body, forces acting on the honeycomb body from the exterior thereof can be carried away without the honeycomb body suffering damage. However even in the case of wall portions of the second thickness, which do not extend through the interior of the honeycomb body, forces acting on the edge of the honeycomb body can be carried away. The wall portions extending into the interior can transmit forces onto a multiplicity of walls of the first thickness which are connected thereto and can thus distribute forces acting from the exterior, in the interior of the honeycomb body.
In a further embodiment of the honeycomb body a plurality of the wall portions of the second thickness extend at least to a common node at which they are connected together and which is disposed in the interior of the honeycomb body. The term node denotes a region in which at least two approximately straight wall portions are fixedly connected together. A node is an elongate connecting region of wall portions, which connecting region extends along a line. There are embodiments of the honeycomb body in which the wall portions that are connected together in the node that extend from an outside to an approximately oppositely disposed outside, embodiments in which (approximately straight) wall portions terminate in the node and embodiments in which all or some of the wall portions connected in the node are extended beyond the node without reaching an oppositely disposed outside.
An advantage of the invention is that honeycomb bodies with thin walls can be built in a stable structure. By virtue thereof it is for example possible to achieve a high cell density, that is to say, a large number of passages per unit area in the cross-section of the honeycomb body, without having to tolerate the disadvantage of a high pressure drop in an exhaust gas flow. A high cell density has an advantageous effect on the catalytic conversion of
Brück Rolf
Maus Wolfgang
Boss Wendy
EMITEC Gesellschaft fur Emissiontechnologie mbH
Greenberg Laurence A.
Jones Deborah
Mayback Gregory L.
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