CS237142B1 - Internal working walls of metallurgical, especially deep furnace - Google Patents

Abstract

The invention relates to the lining of metallurgical walls, especially deep furnaces with vertical division into heat-insulating and strength layers and solves the problem of economically increasing the efficiency and durability of monolithic linings. The inner working wall is divided horizontally into three layers, of which the lower layer is formed by refractory bricks, for example from fused corundum and the upper layer is formed by, for example, dinas. The middle layer, in the range from the level of the exhaust opening to the overlap above the plane of the tilting center of gravity of the wall, is formed by a plastic material placed and tied in place and is anchored to the furnace shell by means of evenly spaced metal holders through metal connectors to ceramic anchor stones placed horizontally across the middle layer.

Description

BACKGROUND OF THE INVENTION The present invention relates to a lining of metallurgical walls, in particular to vertical furnaces with vertical separation to thermal insulation and strength layers, and solves the problem of economically increasing the efficiency and lifetime of monolithic linings.

The inner working wall is divided horizontally into three layers, of which the lower layer is made of refractory bricks, for example of fused corundum and the upper layer is made up of, for example, dinas. The middle layer, in the range of the draw-off aperture to overlapping the plane of the wall's center of gravity, is made of a plastic material deposited and bonded in place and is anchored to the furnace shell by means of evenly spaced metal holders through the metal couplings for ceramic anchoring stones placed horizontally across the middle layer. 237142 237142 3

BACKGROUND OF THE INVENTION The present invention relates to a lining of metallurgical walls, in particular to vertical furnaces with vertical separation to thermal insulation and strength layers and solves the problem of economically increasing the efficiency and service life of monolithic linings.

Furnaces of the furnace, in particular monolithic, in particular, are still formed most often so that the plastic refractory material is densified over the entire height of the furnace wall. The quality of the material must correspond to the most exposed parts of the furnace, both in terms of heat and mechanical damage. In this way of lining up with a high-quality lining, some places, at the upper level of the lining, are not fully utilized. In the case of more local damage in the middle part of the wall, it is necessary to replace the lining all over the wall height, which is economically disadvantageous.

The above-mentioned drawbacks are solved and the problem is solved by the inner working walls of the metallurgical furnaces, especially the deep, ie the vertical strength layer, consisting of the bottom layer consisting of refractory bricks with high resistance to mechanical damage, such as fused corundum and the upper layer of refractory bricks, for example dinas, according to of the invention. The essence of the invention is that an intermediate layer of plastic material is inserted between the upper and lower layers, ranging from the level of the exhaust opening to the level of the burner openings, above the plane of tilt of the center of gravity of the furnace wall. The middle layer is anchored to the furnace shell by means of evenly spaced metal holders to which ceramic anchoring stones, mounted horizontally in the middle layer, are attached by means of metal connectors. The advantages of the invention are mainly in that a separate monolithic and anchored middle wall of the wall with dimensional and functional stability is formed, which also substantially fixes the upper parts of the furnace otherwise damaged by the handling and lid and backfill sealing pistons and bottom parts damaged in cleaning and tool handling crane and the like. This limits the tilting of the liner due to the flow of backfill sands, and in any case allows for the local repair of any of the layers without changing the other liner layers. It is possible to use efficient plastics materials only on the main part of the liner economically and widely. An example of an embodiment of a liner according to the invention is shown in the attached drawing with a deep-roasted roasting in section and with a view of a part of the inner wall. The liner comprises a backsheet 11, a topsheet 12, and a middle layer 13 formed between the draw-off opening 31 and the burner holes 32. The topsheet 12 has vertical dilatations 17 up to the sealing trough 24. The middle wall 13 of the wash-wall 10 has horizontally mounted anchoring stones 14 evenly distributed with metal couplings extending from the insulating wall 21 and hinged to the metal holders 16 welded to the furnace housing 23.

After forming the vertical insulating lining 22, the insulating wall 21 and the bottom wall 11 of the partition wall 10, the intermediate layer 13 is formed by depositing and bonding the plastics to the formwork layer after depositing and joining the anchoring stones 14 and metal connectors in the respective layer.

The invention can be used on all types of furnaces, especially with top and side feeds.

Claims (1)

OBJECTIVE Internal working walls of metallurgical, notably deep furnaces, consisting of a lower layer of refractory bricks with high resistance to mechanical deterioration, such as fused corundum, and an upper layer of refractory bricks, such as silica, characterized by the fact that between the upper layer (12) ) and the backsheet (11) is a central layer (13) formed of plastic material extending from the level of the exhaust opening (31) to the level of the burner openings (32) above the plane of pitch of the furnace center of gravity. 1 sheet of drawings 237142