CS214115B1 - Refractory panel,especially for walls of furnace sets - Google Patents

Description

The invention relates to a structural design of a refractory panel useful for mounting refractory insulations of furnace aggregates.

Nowadays, the widespread use of refractory insulations of furnace aggregates from inorganic fibers and blocks or panels made of them has begun to develop in industrial practice. Hitherto known all-fiber panels are designed such that steel mandrels are welded to a metal substrate and the individual layers of insulating materials are attached to them by means of mounting self-locking clips and a final refractory clip.

The disadvantage of these constructions is that the steel mandrels and clips, especially in an aggressive environment with sulfur fumes, have a lower lifetime than the insulation itself and thus reduce the overall lifetime of the thermal aggregate insulation. The mandrels, passing through the entire insulation, increase the heat loss of the insulation by guiding the anchors.

These drawbacks are overcome by the refractory panel according to the invention, which consists of a rectangular cup-shaped steel frame, to which a rigid calcium silicate or inorganic fiber plate is attached by means of anchors, and lamellas of inorganic fibers are bonded thereto. In some cases an insulating layer of inorganic fibers is placed between the wall of the steel frame and the rigid plate.

The refractory panel is provided with at least two adjacent mutually perpendicular sides on its entire surface to increase the tightness. the height of the inorganic fiber felt zones.

.214115

12 '

With this solution, the inner parts of the anchors are covered with a final facing lamella layer of insulation, which is only cemented. Under this layer there is a significantly lower temperature, depending on the type of aggregate, about 200 ° C to 650 ° C lower than on the inner surface of the insulation. For this reason, it is possible to use for steel anchors of lower quality steel, the heat transfer through the panel is reduced by limiting the heat bridge through the anchoring pins.

The design of this panel allows for easy and quick attachment of insulation by means of steel-coated steel screws fixed from the outside of the panel to the calcium silicate plate that forms the intermediate structural part of the panel.

Perfect sealing of the individual panels is ensured by a strip of felt of inorganic insulating fibers, which is on two adjacent loose sides along the entire height of the panel and after tightening β pressing creates sufficient sealing.

An exemplary embodiment of a refractory panel according to the invention is shown in the accompanying drawing, in which Fig. 1 shows schematically a cross-section of a panel and Fig. 2 shows a longitudinal section of a panel according to the invention.

At least one layer of board, felt or mat of inorganic fibers is applied to the steel frame 1 of the refractory panel having a rectangular cup shape. Next, a rigid fresco 6 of calcium silicate or inorganic fibers is applied and attached to the steel frame 1 by anchors 4. A face layer of slats 7 of inorganic fibers is bonded to this rigid plate 6, which protects the anchors 4 against the internal atmosphere of the heat generator. increases the mechanical strength of the surface of the refractory panel.

In the side walls of the cup-shaped steel frame 1 there are openings 2 for joining the refractory panels together and fastening them to the support structure.

The sealing between the individual refractory panels is provided by an inorganic fiber felt web 2, which each panel is provided on at least two adjacent mutually perpendicular magpings over its entire height.

When forming the wall of the thermal aggregate, it is advantageous to assemble the refractory panels so that the orientation of the slats 7 of the adjacent panels is perpendicular to each other.

Claims (3)

U. A refractory panel, in particular for foamed furnace aggregates, characterized in that it consists of ¹ rectangular cup-shaped steel frame (1), to which a rigid plate (6) of calcium silicate or inorganic fibers and the lamellas (7) of inorganic fibers are bonded. A refractory panel according to claim 1, characterized in that an insulating layer of organic fibers is arranged between the wall of the steel frame (1) and the rigid plate (6). 3. The refractory panel of claim 1, wherein said panel is provided with at least two adjacent sides perpendicular to each other. its height by the inorganic fiber felt zones (3).