CS221586B1 - Industrial furnace - Google Patents

Abstract

The essence of the invention lies in the fact that the supporting structure of an industrial furnace consists only of transverse frames and longitudinal beams, which are fitted with individual self-expanding panels, which consist of the furnace itself, insulation and refractory lining. The panels are attached to the steel structure by feet, which are part of the steel structure of the panel itself. The subject of the invention can be used in most engineering furnaces, in furnaces for the ceramic and brick industries.

Description

The principle of the invention consists in that the supporting structure of an industrial furnace consists only of transverse frames and longitudinal beams, which are fitted with individual self-expanding panels consisting of the furnace itself, insulation and refractory lining.

The panels are attached to the steel structure by means of feet, which are part of the actual steel structure of the panel.

The present invention is applicable to most engineering furnaces, furnaces for the ceramic and brick industry.

8

The invention relates to an industrial furnace, in particular a chamber-type furnace, a hood-type furnace or a tunnel-type furnace, and more particularly to a new construction system of the shell itself.

The known industrial furnaces are built in such a way that in the steel supporting and contracting structure, which includes both the supporting frames and the outer casing and outer part of the ceiling, the building is made of refractory lining, either of bricks or refractory blocks. or refractory fibrous insulating materials.

The furnace walls or ceilings thus designed are carried out on the construction site by conventional building technology. In refractory fibrous materials, the furnace walls are formed from sheets, felt or smaller blocks glued or anchored to a separate furnace jacket.

These furnaces are demanding in terms of assembly work, both in terms of staff numbers and qualifications. Construction time is long and labor productivity is low. Mechanization is only applicable to a limited extent. In some cases, problems arise with the elimination of dimensional changes as a function of temperature changes in the furnace.

All these circumstances have an adverse effect on the amount of investment costs. They are also disadvantageous for the operator, since repairing all or part of the lining is laborious and requires a long shutdown of the furnace, thereby increasing operating costs and losses due to production stoppage.

These disadvantages are eliminated by the industrial furnace according to the invention, which is characterized in that its supporting steel structure consists only of transverse frames and longitudinal beams and is fitted with individual self-expanding panels consisting of the steel structure itself, including the outer shell of the furnace , insulation and refractory linings.

The panels are attached to the steel structure of the furnace by means of feet which are part of the steel structure itself. Expansion joints filled with fibrous material are formed between the panels.

These furnaces allow maximum prefabrication and minimize assembly work, resulting in a significant reduction in construction time.

The joint expansion compensates for both manufacturing tolerances and length changes due to temperature changes in the furnace. Owing to this solution, the steel structures of the individual panels are not interconnected, which then work independently when the temperature changes. This also eliminates the stress of the material created by the length changes due to the temperature changes in the furnace.

The mounting of the panels to the feet allows easy and accurate alignment in all directions and ensures limited heat transfer between the panels and the supporting steel structure of the furnace.

During operation of the furnace it is possible to apply this solution prednoisiti especially during repairs, when only one panel can be replaced.

An exemplary embodiment of a furnace structure according to the invention is shown in the accompanying drawing, which shows a partial cross-section.

The supporting steel structure of the furnace is formed from transverse frames 1 and longitudinal beams 2, on which the side wall panels, the ceiling and possibly the hearth of the furnace are set. The panels 3 comprise their own steel structure including the furnace outer casing 4, the refractory lining 6 and the insulation 5. The refractory lining 6 with the insulation 5 may be of conventional materials, refractory concrete or refractory fibrous insulating materials.

The side wall panels 3 may be formed over the entire height of the furnace or the bottom of the walls may be formed separately and the panel of the top of the side wall may be separate. The furnace ceiling consists of a separate ceiling panel.

The actual steel structure of the panels 3 is provided with feet 7 for attaching the panels 3 to the furnace supporting structure. There is an expansion joint between the panels 3, which is filled with a flexible fiber material 8.

The panels 3 are mounted on the supporting steel structure of the furnace, which is carried out first, followed by fitting the furnace wall panels 3 in regular modules. Each panel 3 forms a complete section of the furnace wall, ceiling or hearth, including all necessary openings, burners, measuring points and the like.

Claims (3)

Subject Industrial furnace, characterized in that its supporting steel structure consists only of transverse frames (1j and longitudinal beams (2) and is equipped with individual separately expanding panels (3), which consist of the steel structure itself including the outer shell of the furnace (1). 4), insulation (5) and refractory linings (6). Industrial furnace according to claim 1, characterized in that the panels (3) are attached to the steel structure of the furnace by means of feet (7) forming part of the steel structure itself (3). Industrial furnace according to claim 1, characterized in that between the individual panels (3) there is an expansion joint filled with fibrous material (8).