DE1096817B - Process for applying refractory linings to the walls of industrial furnaces or their furnace parts - Google Patents

Description

Method of applying refractory linings to the walls of Industrial ovens or their oven parts The invention relates to a method for application refractory linings on the walls of industrial furnaces or furnace furnaces and on furnace parts for industrial furnaces. Under industrial furnaces or furnace furnaces are understood those that are used at high temperatures for industrial purposes, eg. B. as Hütt ° furnaces, melting furnaces, annealing furnaces or as furnaces for energy generation plants, Find use; under furnace parts are ready-to-install or ready-to-assemble components, such as walls, doors, lids, shuttle bogies.

As a rule, industrial furnaces are made of refractory bricks for that Lining is bricked up and these linings with insulating bricks to isolate them from the outside walled. In general, a sheet metal jacket or a boundary is placed first made of braced rails and filled with a layer of insulating stone or insulating powder, behind which the actual roughening is carried out. Depending on the type of furnace to be manufactured, the required ones are based Demands on the resistance of the stones to the mostly high physical and chemical stresses, especially with regard to temperature changes and mechanical strength in high heat. By using standardized stone formats the investment costs can be reduced, but the disadvantage remains the large number the stones to be laid and their structure, d. H. a lot of work. Even the joints between the stones usually form places of preferential susceptibility to the stress in operation. The way out of using larger stone formats means increased costs, especially since this requires complicated shapes in production will.

For the above reasons, attempts have been made to parts of ovens and also make entire ovens from rammed earth. This almost completely avoids joints and with the appropriate formwork it can be used in practically any desired shape bring. However, the amount of work is very large in this production method because A significant amount of the work has to be done by hand in order to achieve the necessary density to achieve the rammed earth. Because of the effort required to achieve it the necessary density also requires correspondingly strong formwork. Execution by handwork and by several workers does not always guarantee uniformity and leads above all to the destruction of pores, as to some extent in the Insulating layer are desirable. Since the stamping sometimes after the performance of the outer Oven jacket is made of insulating stones, so the stones can be damaged and not every complicated shape can be carried out using stamping work.

The method according to the present invention is characterized in that that in the vertical or inclined walls of the ovens or furnace parts and spaces formed by formwork at least one thin intermediate formwork is used, in the spaces created in this way, each different from one another compound masses of liquid poured at the same time and before the final Hardening of the '-ergießschichten pulled out the intermediate shuttering or shuttering and then the layers that can still be bonded by shaking or knocking them together be united.

Although it is already known in the lining or metallurgical other ovens the refractory, more or less viscous mass using a Stamping stencil. Another known method is the refractory Mass in dry, granular form, also using a template, in poured into the oven. It is also known for making refractory walls made of refractory concrete to hold the walls together by means of a shuttering, with tubular, rod or grid-shaped ceramic insert bodies for the interior of the walls as `` Tersteifungseinlagen '', which developed when burning the walls Water vapor allow easier removal and that of the mass before firing should give a certain inner cohesion. Acts in all of these cases it is not about making refractory linings by potting under them Stripping of the solidified casting compound and the arrangement of a thin partition, whereby it is possible to build differently composed furnace walls, d. H. Furnace walls with different fire resistance within the furnace lining.

lachdem has shown, however, that with a method according to the present invention let the intermediate formwork or formwork pull, if the required pre-hardening state of the layers cast at the same time is present, as a prerequisite to ensure the necessary strength of both layers and to achieve an interlocking or anchoring of the layers in one another, the to a certain extent a multilayer monolith results, one is able to after this Method of pouring three or more layers in one operation and in stages Pulling up the intermediate formwork to practically any height. In this is a substantial simplification, and there are also costs, especially labor costs, apart from the possible acceleration of the production process.

The intermediate formwork can, depending on the casting material used, consist of the cheapest materials, which can only be selected from the point of view are that they have the necessary strength for the temporary separation of the masses and have when drawing, while only a single template as the actual template is necessary. The technique of casting masses, the so-called slip casting, of refractory Concrete is known per se. However, it was not known here through intermediate formwork Pouring walls from different masses and connecting them to form a unit the previous disadvantages of industrial furnace construction in the masonry or ramming work to meet and thus on the other hand in. Simplified production also the most complicated Obtain furnace molds or components.

In practicing the present method, one can also manufacture complete walls of industrial furnaces or industrial furnaces in such a way that instead of an outer covering made of sheet metal or stones or concrete the entire wall is made of refractory casting compounds, d. H. not from a finished one Wall or a load-bearing component goes out in order to apply the refractory lining, but also allows this component to be created at the same time when it is raised. Man For this purpose, a casing is created with or without reinforcement and this on one side Formwork a second formwork space with the thin intermediate formwork according to the invention.

The masses that are used for potting can be known per se Wise additions of liquefying agents obtained, for. B. from soda or oxalic acid, so that the various masses to be cast can be adjusted to the desired Pore content as on the required wall smoothness and the solidification time as well Above all, a perfect bond of the layers can be coordinated with one another. the Surfaces that have been preserved have an almost politically unlikely sheen.

By forming several layers in the refractory lining part one is able to use the usually more expensive highly refractory layer in its strength to be limited to what is just required, like this one with masonry and also when stamping is not possible, because these working methods have certain strengths not let go below.

Since the masses used today have a very small interval, d. H. between the possibility of stripping and hardening of the mass in one There is only a very short time left to the extent that it is difficult to tie up the new position available, and therefore there is sometimes the risk of too much when using it early stripping and a collapse of the mass just introduced. By This danger is countered by shaking or knocking the layers that can still be bonded and achieved a perfect result.

All types of refractory materials, such as silicates, zirconia, chromite, silicon carbide, chamotte and corundum, as well refractory insulating materials, e.g. B. diatomaceous earth in the form of casting compounds, use.

The procedure can also be used in cases where repairs are required.

Claims (1)

Claim: method for applying refractory linings to the walls of industrial furnaces or their furnace parts, characterized in that at least one thin intermediate shuttering is inserted into the spaces formed by the vertical or inclined walls of the furnace or furnace parts and by shuttering Interstices for each differently composed liquid masses are poured in at the same time and before the final hardening of the potting layers, the intermediate formwork or formworks are pulled out and then the layers that can still be bonded are united with one another by shaking or knocking. Documents considered: German Patent Nos. 241174, 291845, 423715. USA . Patent No. 2,527,500.