CS217245B1 - Furnace insulation of fibrous refractory materials - Google Patents

Abstract

The invention relates to a furnace insulation made of fibrous refractory materials, consisting of a basic insulating layer, composed for example of a layer of refractory mineral fibers and a layer of refractory ceramic fibers, attached to the furnace shell by metal pins, and a layer of refractory high-alumina fibers. The essence of the invention lies in the fact that the layer of refractory high-alumina fibers, arranged on the heat side, is connected to the basic insulating layer by ceramic pins inserted in the basic insulating layer.

Description

The invention relates to heat-resistant insulations of furnace walls and ceilings made of fibrous materials.

Until now, the insulation of fibrous refractory materials has been constructed by successively attaching individual layers of fibrous refractory material to a metal furnace shell on which metal mandrels have been welded until the desired furnace wall thicknesses are achieved. The ends of the metal mandrels were protected from the effects of high temperatures by ceramic cone-shaped clips, the inside of which was filled with ceramic sealant.

The disadvantage of these embodiments was, in particular, the low lifetime of the metal mandrels in the highly thermally stressed part, which was also the low lifetime of the insulation. Replacing damaged mandrels was laborious because both mandrels and linings had to be replaced unless a special welding machine was available.

Furthermore, it was not possible for the fiber insulation to be glued in the form of boards to the basic hard insulation; when gluing Insulating layer under high temperature.

(above 1200 ° C) there were problems with the quality of the adhesive sealants, thereby reducing the lifetime of the high temperature insulation.

These disadvantages are limited by the furnace insulation of the fibrous refractory materials according to the invention, characterized in that the heat-resistant high-aluminate fiber layer arranged on the heat side is connected to the base insulation layer by ceramic mandrels inserted in the base insulation layer.

An advantage of such an insulated furnace insulation is that the layer of refractory high-aluminate fibers protects the metal mandrels from the effects of high temperatures, thereby extending the life of the insulation.

The shaft of the ceramic mandrels, smooth or with grooves, is provided with a head or ceramic washer arranged outside the layer of refractory high aluminate fibers.

Ceramic mandrels can be used in all types of fibrous refractory materials where metal mandrels risk thermal, thermo-chemical or chemical corrosion.

The furnace insulation of the fibrous refractory materials according to the invention is shown in Figures 1 to 6.

Fig. 1 shows an insulation composed of a base insulating layer and a layer of refractory high aluminate fibers; Fig. 2 shows the basic insulation layer made of hard insulation on which are glued blocks of ceramic refractory fibers to which a layer of high-aluminate fibers is attached by ceramic mandrels. Fig. 3 shows the connection of insulation layers Fig. 4 shows a ceramic mandrel with a smooth shank provided with a head, Fig. 5 shows a ceramic mandrel with a ceramic washer, the stem of which is provided with grooves, and Fig. 6 shows the process of joining individual layers of insulation with ceramic mandrels. .

The furnace insulation is formed of a base insulating layer 6 composed of a layer 6 ^of refractory mineral fibers and a layer 6 of refractory ceramic fibers. The base insulating layer 6 is attached to the furnace wall 6 by metal mandrels 6, the ends of which are provided with ceramic fasteners 6. On the heat side, a layer 2 ^of refractory high-aluminate fibers is arranged on the base insulation layer 1, which is connected to the base insulation layer 6 by ceramic mandrels. The connection is effected by means of ceramic mandrels 2, the shaft of which is smooth or with grooves 12 is provided with a head 10 or a ceramic washer 11.

The base insulating layer 6 can be formed of a hard lining 10 to which blocks 14 of refractory ceramic fibers are glued.

The attachment of the refractory high-aluminate fiber layer X to the base insulating layer 1 is effected by a recess 15 at the connection point into which the ceramic market 8 is inserted.

If the base insulating layer 4 is soft, the ceramic mandrel 4 can be pushed directly into the base insulating layer 6. Prior to this, the ceramic mandrel 8 is soaked in a ceramic sealant 16 diluted with water glass, whereby after drying and firing a stronger connection of the ceramic mandrels 8 to the base insulating layer 6 is achieved.

Claims (2)

SUBJECT OF THE INVENTION Furnace insulation of fibrous refractory materials, comprising a base insulating layer, comprising, for example, a layer of refractory mineral fibers and a layer of refractory ceramic fibers attached to the furnace shell by metal mandrels, and a layer of refractory high aluminate fibers, characterized in that the heat-resistant high-aluminate fiber layer (7) arranged on the heat side is connected to the base insulating layer (s) by ceramic mandrels (8) inserted in the base insulating layer (1). Furnace insulation according to claim 1, characterized in that the shaft (9) of the ceramic mandrels (8), smooth or with grooves (12), is provided with a head (10) or a ceramic washer (11) arranged outside the layer (7). refractory high aluminate fibers ·