DE3432283A1 - CATALYTIC EXHAUST GAS DETECTING DEVICE - Google Patents

Abstract

1. Catalytic exhaust detoxification device with a honeycomb-structured monolithic ceramic body (3), which has a catalytically active surface coating, located in a metallic external housing (1) with a conical exhaust intake and discharge adaptor (2) on the front face, a thermally insulating spring cushion consisting of a so-called expanded mat (4) being interposed between the external housing (1) and the ceramic body (3), characterized in that a thermally insulating mat (5) which extends almost up to the expanded mat (4) and is covered by a shield sheet (6) which is resistant to high temperatures is positioned on the inner surfaces of the exhaust intake and discharge adaptor (2), the shield sheet being permanently connected on the outside to the adaptor (2) and having on the inside end (8) a sliding seat seal which thermally insulates the region between the expanded mats (4, 5) from the external housing (1).

Description

Catalytic exhaust gas decontamination device

The invention relates to a catalytic exhaust gas decontamination device with one in a cylindrical metallic outer housing with frontal, in particular conical exhaust gas inlet and outlet nozzles arranged porous, in particular honeycomb structured monolithic Ceramic body with a catalytically active surface coating, the outer housing and the Krami kkörper a thermally insulating, preferably consisting of a so-called inflatable mat, spring cushion is interposed.

The arrangement of such a thermally insulating spring cushion between the ceramic body and the outer housing serves to support the ceramic body in the outer housing while compensating firstly for the manufacturing tolerances and in particular the thermal expansion of the ceramic body and the housing, taking into account the significant , be several hundred degrees, differences in operating temperature. Because of the aggressiveness of the still in addition moist and among other things containing sulfur oxide and nitrogen oxide Exhaust gases, it is necessary to

housing including the exhaust gas inlet and outlet nozzles made of high quality stainless steel. This complicates and makes the construction of such exhaust gas detoxification devices considerably more expensive.

The invention is therefore based on the object of a catalytic Design exhaust detoxification device of the type mentioned so that including for the outer housing its inlet and outlet connection simple and cheaper materials can be used.

To solve this problem, the invention provides that on the inner surfaces of the exhaust gas inlet and outlet pipe a, reaching up to the inflatable mat thermally insulating Mat is applied, which is covered by a high temperature-resistant shielding plate.

Providing such a thermal shield for the inlet and outlet nozzles - the actual cylindrical, oval or the like outer housing is largely thermal as well as against the aggressive exhaust gases due to the expansion mat shielded - it is ensured throughout the interior of the housing that neither the aggressive components of the Exhaust gas can come into contact with the outer housing with its inlet and outlet nozzles. In addition, the The temperature reached by the outer housing during operation is significantly reduced compared to the usual, non-insulated embodiments, which in turn reduces the service life of the housing significantly enlarged, or in other words, it enables cheaper, simple chrome steel sheet to be used instead of expensive special steels to use.

It can be further provided in a further embodiment of the invention that the outside, fixed to the socket connected, in particular welded, shielding plate at the inner end with a sliding fit from an adjacent annular flange a metallic sealing ring is included. Through this training, the significant thermal longitudinal expansion of the shielding plate are easily absorbed and do not cause any loads on the connection points the outer housing, which heats up significantly less during operation, or its inlet and outlet connections.

The structure is particularly simple if one uses a cross-sectionally essentially Z-shaped sealing ring provides, with its expanded, the front edge of the ceramic body reaching under the outer ring flange tight is connected to the outer housing, both by a press fit and by welding to the outer housing can be achieved. The inner ring flange of the Z-shaped sealing ring, which is smaller in diameter, points parallel in each case to the inner surface of the exhaust gas inlet or outlet connection to the outside and engages over the inner edge of the shielding plate with a press fit

In order to prevent the exhaust gas from passing between the ceramic body and the outer housing, which in turn causes it to would be strongly thermally stressed and, on the other hand, there would be the possibility of attack by aggressive components The problem arises particularly with so-called inflatable mats, which increase several times over at higher temperatures can expand compared to their original diameter, provided that they are not due to their press fit on such strong expansion are prevented -is provided in a further embodiment of the invention that the front edges of the The inflatable mat is bordered with a sealing strip that is wrapped around it,

for example from a metal foil, from a ceramic fiber tape or a woven ceramic or fiberglass mat.

Such a sealing strip, possibly additionally glued to the expandable mat, with its folded edges between the ceramic body and outer housing are jammed, effectively prevents exhaust gases from passing through between ceramic bodies and outer casing, wherein such a penetration beyond the disadvantages described above also the difficulty would mean that with such an exhaust gas flow a very rapid fraying of the inflatable mat would have to be feared, which is a considerable loss of tear resistance at higher temperatures compared to the originally solid structure suffers.

Further advantages, features and details of the invention emerge from the following description of an exemplary embodiment, of a partially sectioned side view of an end portion of a catalytic according to the invention Exhaust gas decontamination device shows.

In the substantially cylindrical outer housing 1, to which conically tapering exhaust gas inlet and outlet nozzles 2 follow, of which only one is shown in the drawing can be seen are mono! itic, honeycomb structured Ceramic body 3 supported, the surface of which with a catalytic effective surface coating is safer. So-called inflatable mats 4 are provided to hold these ceramic bodies, i.e. they expand with increasing temperature Fireproof fiber mats, which for a centered mounting in the outer housing, also taking into account the heavily under-

parted! ichen expansion during operation of the exhaust gas decontamination device care for.

In order to use cheaper, simple steel sheets for the outer housing 1 and the subsequent exhaust gas inlet and outlet stubs 2 to be able, it is initially provided that the inner surfaces of the exhaust gas inlet and outlet pipe 2 with thermal insulating mats 5 are covered, in turn by a high temperature-resistant shielding plate 6 covered. This shielding plate is on the outside with his on the Stutzen'2 adjacent outer flange 7 is welded directly to the stub 2, while the inner edge 8 with a Sliding fit wedging under the outwardly facing annular flange 9 of an essentially Z-shaped curved sealing ring 10 engages, the outer flange 11 of which rests sealingly on the outer housing 1, possibly is welded to this. Through this sliding seat which is indicated by the double arrow, the shielding plate 6 can move in the axial direction at its considerable move thermal changes in length. The temperatures on the shielding plate 6 are much higher than on the metal socket 2, thermally through the insulating mat 5, which can be constructed, for example, on an aluminum-silicate basis is isolated.

For further, both thermal and corrosion-preventing insulation of the housing 1, it is additionally provided that the edges 12 of the inflatable mats 4, which are bent inward over the front edges, are each folded over by sealing strips 13 are bordered from metal foil, ceramic fiber tape or woven ceramic mat or fiberglass mat, the bent over Edges between the ceramic body 3 and the outer housing'1 are jammed. Through these sealing strips, every

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Lich passage of exhaust gas between the ceramic body 3 and the outer housing is prevented, which, in addition to the insulation _{3 mentioned,} also prevents the Bla'hmat material from being blown out of its tear resistance at high temperatures.

Claims (5)

Claims Catalytic exhaust gas detoxification device with a porous, in particular honeycomb structured mono-itic ceramic body with a catalytically effective surface coating, the outer housing and the ceramic body having a thermally insulating, preferably consisting of a so-called expanding mat, arranged in a metallic outer housing with frontal, in particular conical exhaust gas inlet and outlet nozzles Spring cushion is interposed, characterized in that a thermally insulating mat (5) is applied to the inner surfaces of the exhaust gas inlet and outlet stubs (2) and is covered by a high-temperature-resistant shielding plate (6). 2. Exhaust gas detoxification device according to claim 1, characterized in that the outside with the nozzle (2) firmly connected, in particular welded shielding plate (6) at the inner end (8) with a sliding fit of an adjacent annular flange (9) comprises a metallic sealing ring (10) is. 3. Exhaust gas detoxification device according to claim 2, characterized in that the cross-sectionally essential Z-shaped sealing ring (10) with its enlarged, the end edge of the ceramic body (3) reaching under the outer ring flange (11) is tightly connected to the outer housing (1). 4. Exhaust gas detoxification device in particular of one of claims 1 to 3, characterized in that the end edges (12) of the inflatable mat (4) are bordered with a folded sealing strip (13). 5. Exhaust gas detoxification device according to claim 4, characterized in that the folded edges of the sealing strip (13), possibly glued to the inflatable mat, are clamped between the ceramic body (3) and the outer housing (1).