DE9311571U1 - Inflatable mat - Google Patents

Description

Andrejewski, Henke & Partner, patent attorneys in Essen

Description

The invention relates to an expansion mat for catalytic converters for cleaning motor vehicle exhaust gases, consisting of inorganic fibers with a temperature resistance of at least 900° C, vermiculite and an organic binder. - The expansion mat is arranged on the circumference of the ceramic carrier body of an exhaust gas catalyst and/or soot filter and seals the annular gap between the ceramic carrier body and the housing of the converter, which is made of a metallic material. It expands when heated, whereby a surface pressure increases with increasing temperature and is required for proper sealing. The expansion mat enables the ceramic carrier body to be stored safely and compensates for different expansion coefficients of ceramic and metal. The expansion mat also forms a thermal insulation layer on the inner wall of the metallic converter housing and reduces the noise transmitted to the outside by the flowing exhaust gases.

In the expanded mat known from practice, from which the invention is based, the inorganic fibers consist of ceramic staple fibers, which are produced from a melt of Al ₉ O ₀ and SiO ₉ in a centrifuge.

Z O Z

The staple fibers usually consist of 50 to 52% SiO ₉ and 47 to 49% Al ₉ O”,

Z Zo

Rest TiO ₉ , Fe ₉ O ₃ , MgO and Na O. The staple fibers have a

average diameter of about 3 pm, although there is a large range. A considerable part of the staple fibers

Andrejewski, Honke & Partner, patent attorneys in Essen

are smaller than 3 pm and can be inhaled due to their small dimensions. As a result, ceramic staple fibers in inflatable mats are considered to be hazardous to health. Damage to the health of people involved in the manufacture, processing and assembly of inflatable mats cannot be ruled out.

The invention is based on the object of specifying an inflatable mat of the type described above which can be manufactured, processed and installed without health risks while maintaining good inflatable properties.

To solve this problem, the invention teaches that the inorganic fibers consist of shredded, non-respirable filaments. Filaments can only be produced practically endlessly with a defined diameter using a nozzle drawing process. A diameter variation due to production is very small and is usually in the range of +/- 10% based on the nominal diameter. The filaments have a diameter in the range of 5 to 10 pm, preferably 6 pm. The length of the filaments can also be freely selected as a parameter. Long filaments can hinder expansion of the mat by forming bridges or cross-linking. On the other hand, inflatable mats with inorganic fibers that are too short tend to erosion and abrasion. The length of the filaments can be adjusted in the millimeter range within the scope of the invention so that, with sufficient erosion resistance, no filament cross-linking occurs that hinders the radial expansion of the installed inflatable mat. According to a preferred embodiment of the invention, silicon filaments with a SiO2 content of more than 80% by weight are used as filaments.

Andrejewski, Honke & Partner, patent attorneys in Essen

In the following, the invention is explained with reference to a drawing which merely represents an embodiment.

The only figure shows a longitudinal section of an expanded mat 2 installed in a catalytic converter 1 for cleaning motor vehicle exhaust gases. The expanded mat 2 is arranged on the circumference of a ceramic catalyst carrier 3 and seals the annular gap between the ceramic catalyst carrier 3 and a housing 4 made of sheet steel. The expanded mat 2 consists of inorganic fibers with a temperature resistance of at least 900 ^° C, vermiculite and an organic binder. The expanded mat 2 expands in a radial direction when heated above a temperature of about 35O ^° C. The organic binder softens and burns. At 75O ^° C, all of the vermiculite has expanded, the expanded mat thickness being more than 1.5 times the initial thickness. The surface pressure associated with the expansion ensures that the annular gap between the ceramic carrier body 3 and the metallic housing 4 is securely sealed.

The inorganic fibers of the inflatable mat consist of shredded, non-respirable filaments. The filaments have a diameter in the range of 5 to 10 pm, preferably 6 pm. The length of the filaments is set in the millimeter range so that, on the one hand, sufficient erosion resistance of the inflatable mat is guaranteed, and, on the other hand, no filament cross-linking occurs that would hinder the expansion of the inflatable mat. Silicon filaments with a SiO2 content of more than 80% by weight are preferred as filaments.

Claims (4)

Andre jewski, Har.kc &lgr; Partner, Pctantanwälte in Essen Utility model application G 93 11 571.7 11 August 1993 h.k.o. Isolier- und Textiltechnik GmbH Protection claims 1. Intumescent mat for catalytic converters for cleaning motor vehicle exhaust gases, - consisting of inorganic fibers with a temperature resistance of at least 900° C, vermiculite and an organic binder, characterized in that the inorganic fibers consist of shredded, non-respirable, endlessly drawn filaments using a nozzle drawing process. 2. Inflatable mat according to claim 1, characterized in that the filaments have a diameter in the range of 5 to 10 pm, preferably 6 pm. 3. Inflatable mat according to claim 1 or 2, characterized in that the length of the filaments is set in the millimeter range so that with sufficient erosion resistance, no filament cross-linking occurs which hinders the radial expansion of the installed inflatable mat. 4. Inflatable mat according to one of claims 1 to 3, characterized in that silicon filaments with a SiO2 content of more than 80% by weight are used as filaments.