DE2313156A1 - EXHAUST GAS PURIFICATION DEVICE - Google Patents

Description

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GERMAN GOLD AND SILVER SOHEIDJSANSTALT FORMERLY ROESSLER 6 Frankfr.rt am Main, Weissfrauenstrasse 9

Exhaust gas cleaning device

Catalytic post-combustion systems, among other things, are used to clean exhaust gases behind internal combustion engines. These devices generally consist of a metallic housing into which catalysts are placed in a suitable form. Bulk bodies or impregnated ceramic bodies with narrow channels through which gas flows and in which the exhaust gas afterburning takes place can be used as the catalyst. These bodies can consist of one piece (so-called monoliths). The monolith made of ceramic material must be anchored in the metal housing. Constructions are known in which the monolith is cemented in place. A disadvantage of this type of fastening is that, on the one hand, the mechanical vibrations and, on the other hand, the combustion gases emerging from the cylinders with a high pulse sequence, the cement connection is heavily stressed and can break. In addition, there is the different thermal expansion of ceramic and metal, which at high temperatures lifts the metal housing from the rigidly cemented ceramic core.

Other constructions press the monolith with an elastic one Ground between the housing and the body. This mass must be kept under such high pressure that it can be in spite of the substantial greater thermal expansion of the housing at high temperature still holds the monolith sufficiently tight. For longer periods of operation the steel casing of the housing can expand so far that the preload on the ceramic monolith decreases and this so that it is no longer anchored sufficiently firmly in the housing.

The exhaust gas cleaning device according to the invention is characterized by an elongated one with an exhaust gas inlet opening at one end and an exhaust gas outlet opening at the other end provided housing for receiving a catalyst monolith, at least two spaced apart in the housing and on it

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attached webs, at least one, preferably on the upstreami * * Gen web attached and displaceably mounted on the downstream web support rod and one in the direction of its flow channels with receiving bores for the support rods and one Monolith catalyst provided with this surrounding elastic intermediate layer, which is held on the rods by the intermediate layer under pressure.

The monolith can be compared to the housing by means of a packing or a labyrinth to be sealed. But it is also sufficient that the gap between the housing and the monolith is smaller than half the diameter of the flow channels of the monolith is carried out.

The advantage of the elastic intermediate layer between the support rod and monolith lies in the effective damping of the exhaust pulse train shocks from the engine. The one for the elastic The intermediate layer used to suspend the monolith can be made from any temperature-resistant substances that generate restoring forces exist. A wire mesh or knitted fabric, stone, Asbestos or glass wool, Fiberfrax or others are used.

The housing can, depending on requirements, be provided with a thermal insulation jacket or with cooling fins.

The invention is explained in more detail below in connection with the drawing. Show it

1 shows a cylindrical device according to the invention

and
2-4 preferred configurations at the gap between the housing

and catalyst monolith.

The holding device shown in Fig. 1 avoids the disadvantages known exhaust gas cleaning devices without the advantage of the elastic intermediate layer between metal parts and monolith ceramics to give up. The monolith 1 is held by a metal rod 2. The elastic mass 3 (Fiberfrax-

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fibers) introduced. which is held by frictional forces on the metal rod and on the monolith. The metal rod is firmly connected to the housing via the webs h. It is slidably mounted in the web 5. The pressure surges of the exhaust gas are absorbed in particular by the elastic intermediate layer, but also by the elasticity of the metal rod and web. Since the ceramic monolith shows only slight thermal expansion, the contact pressure between the rod and the monolith does not decrease even at high temperatures. That with others. Constructions dreaded loosening of the connection between metal and ceramic cannot occur. Since the metal housing does not have to take on any holding functions, the cross-section can be selected as desired (views A, A '). A support rod is used for round housing cross-sections. Two or more handrails can be used for elongated housing cross-sections.

The type of seal against the housing can be chosen freely. Both labyrinths (Fig. 2) and packs (Fig. 3) can be used. A particularly effective way of using the total catalyst volume represents a fitting of the monolith with little play in the housing (Fig. 4). When the wall distance If less than half the diameter of the flow channels is selected, this is already a sufficient seal achieved. The outer surface of the monolith then serves as a effective catalytic ^ surface. Good heat dissipation can be ensured during operation to prevent overheating to avoid the catalyst. The monolith, which in the present case is seated in the metal housing without insulation, has a large one Part of the heat of reaction from the wall. The cooling effect can be enhanced by cooling fins on the housing

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Claims (4)

Claims. 1.) Exhaust gas cleaning device, characterized by an elongated, at one end with an exhaust gas inlet opening, at the other end with an exhaust gas outlet opening for receiving a catalyst monolith, at least two spaced apart in the housing and attached to it. fortified bars, at least one, preferably attached to the upstream web and slidably mounted on the downstream web support rod as well one in the direction of its flow channels with receiving bores for the retaining rods and an elastic one surrounding them Interlayer provided monolith catalyst, which is on the rods through the intermediate layer under pressure is held. 2. Exhaust gas cleaning device according to claim 1, characterized in that that the monolith is sealed against the housing by means of a packing or a labyrinth. 3. Exhaust gas cleaning device according to claim 1 or 2, characterized in that that the gap between the housing and the monolith is smaller than half the diameter of the flow channels of the monolith is executed. 4. Exhaust gas cleaning device according to claims 1 to 3, characterized in that the elastic intermediate layer Wire mesh or knitted fabric, rock, asbestos or glass wool, Fiberfrax o.a. represents. 5. Exhaust gas cleaning device according to claims 1 to k, characterized in that the housing is provided with cooling fins. 13.3.1.973
Dr Kr-P 4 09 838/0614