DE2646960A1 - PREFABRICATED COMPONENT FOR FURNACE - Google Patents

Description

MULLBR-BOREi DEUFEI SCJ & ON HERTI3L

PATENT LAWYERS

18- OKL

DR. WOLFGANG MÜLLER-BORE (PATENT ADVOCATE FROM 1927 - 1975) DR. PAUL DEUFEL. DIPL.-CHEM. DR. ALFRED SCHÖN. DIPL.-CHEM. WERNER HERTEL. D1PL.-PMYS.

STUDICERAM
Monza, Italy

Prefabricated building element for kiln

The invention relates to prefabricated components for industrial kilns and in particular for the construction of Walls of tunnel kiln for burning bricks.

As is well known, the structure of a conventional tunnel oven with a vaulted chamber, especially the structure of the walls, very long and difficult. In the manufacture of the walls, an exact distribution of the various is used Materials in terms of their properties, namely both mechanical strength and heat transfer, necessary. When building such walls it is necessary to use heat-insulating materials or fireproof materials a certain compressive strength can be used wherever necessary. This problem persists even with tunnel furnace with a self-supporting flat vault according to patent application P 25 3o 432.9, which the Enable use of prefabricated parts, in particular

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MUNICH 86 · SIEBEITTSTR. 4 ■ POST BOX 800720 · CABLE: MTTEBOPAT · TEL. (089) 47400S - TELEX 5-24285

in a construction process according to patent application P 26 o4 679.7.

The object on which the invention is based is to provide a prefabricated component for industrial kilns to create, which allows the construction of a furnace wall independent of associated thermal problems by these problems are solved in that a suitable filling is introduced into the cavities, which in the building element are trained themselves.

The object of the invention is achieved in the prefabricated component in that there are at least two rows of parallel cavities, which are offset from one another, so that each perpendicular to a furnace wall consisting of such prefabricated components consists of at least one of the Meets cavities.

According to the invention, these cavities can be filled in a simple manner with heat-insulating materials in a bed v / ground in order to keep the dissipated heat flow constant when the temperature is on the hot inner surface of the Oven changes, i.e. over the length of the oven, for what only the density of the filling material for the cavity or the properties of the filling material need to be changed. Furthermore, the composition of the building materials that make up the building element can be determined by using refractory, refractory insulating or heat insulating concrete of different composition can be changed.

According to the invention, each prefabricated component has at least four edges with alternating protruding and re-entrant Links provided so that the building element can be used so that the cavities are vertical or arranged horizontally.

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"t." 26A6960

The invention is explained in more detail, for example, with the aid of the accompanying drawing.

Fig. 1 shows in perspective an embodiment of a Component.

FIG. 2 shows, in perspective, part of a wall made of vertically arranged structural elements according to FIG. 1.

The prefabricated building element shown in the figures is an essentially cuboid block 1 with two rows of parallel cavities 2, 2 'offset from one another in such a way that they always form a barrier for heat loss in the direction of propagation, ie at right angles to the furnace wall. As can be seen from Fig. 2, the prefabricated elements 1 to form a wall piece are arranged one above the other so that the cavities 2, 2 ¹ stand upright, so that the preferred path of the heat flow lines, which are indicated by the arrow F, when the Side A is the inner surface with the higher temperature and side B is the outer surface, can never run perpendicular to the wall, ie that with one to the wall! mainly vertical heat transfer path, this always meets at least one row of cavities, which always creates a distraction and disruption, possibly also only through the air interiors, which then act as a cavity, but especially if the cavities are filled with suitable heat-insulating materials.

The prefabricated structural elements according to the invention therefore have the advantage that they are made from materials which have only a thermal and / or mechanical resistance, whereby it is not necessary, that the components are made of a material that is fire-resistant and heat-insulating at the same time and thus would be considerably more expensive. So far could

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Bricks of either refractory or heat-insulating material in a separate manner for the construction of walls of industrial tunnel kilns can be used. In this case, however, had to for an accurate distribution of the various Materials above the thickness of the walls from the inside of the furnace with the higher temperature to the outside colder Side to be taken care of.

By using the prefabricated elements according to the invention, the wall can be manufactured from just one type of such structural elements over its thickness, if suitable heat-insulating materials are introduced into the cavities 2, 2 'in a bed, for example in the form of ceramic fibers, rock wool, inert materials, such as Vermiculite, or foamed clay, so that the heat leakage flow is kept constant when the temperature on the inner surface of the furnace changes, simply by changing the filling ratio of the materials in the cavities.

As can be seen from the figures, the two rows of cavities 2, 2 ^{1 can have} different widths. Preferably, but not necessarily, the larger cavity is closer to the hot side of the wall, even if, viewed overall, the size of the cavities depends on the filler materials used, ie their thermal properties and their density.

Four edges of a prism-shaped building element 1 have, as can be seen from the figures, alternately a projection 3 and a groove 3 'with a corresponding cross-section, which each form a protruding and a re-entrant member for connections with which the prefabricated elements for building the walls are mutually connectable, the cavities 2, 2 ^{1 being arranged} either vertically or horizontally.

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• τ *

Although the inner wall of the furnace, namely the side A, as mentioned above, different temperatures from the inlet to the outlet of the furnace, with a maximum temperature usually in the central region of the furnace prevails, prefabricated structural elements of the same type can be used by changing the filling ratio of the heat-insulating Materials in the cavities or the nature of these materials is changed. Components can also be used 1 are used, which are made of a given material for the end zones and a different material with better thermal properties for the central zone of the furnace are established. Usually it becomes more refractory or insulating Refractory or heat-insulating concrete of a different composition is used. For example, if the flame-side wall part of the component 1 made of refractory Material and the rest are made of heat-insulating material, there is a noticeable advantage both from the point of view of reducing the distributed heat and from the point of view of economy.

If a construction method according to patent application P 26 o4 679.7 is used, the prefabricated Components are made from materials particularly suitable from the thermal point of view, without their mechanical strength is to be considered as its function is only that of a filler material or a curtain wall is while the load of the vault is borne and brought to the ground by suitable supports, such as in houses.

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Lee rs e i t e

Claims (5)

* 26A696Q EXPECTATIONS (1i Prefabricated structural element for industrial kilns, characterized in that it is essentially cuboid and has at least two rows of parallel and mutually offset cavities (2, 2 '), whereby each path perpendicular to a furnace wall made of such prefabricated structural elements has at least one of the Cavities (2, 2 ¹ ) meets. 2. Component according to claim 1, characterized in that the cavities (2, 2 ') with heat-insulating materials are filled, which are arranged in it as a bed. 3. The component according to claim 2, characterized in that the filling ratio of the heat insulating materials in the cavities (2, 2 ") changes over the length of the furnace wall as a function of the temperature on the inside of the wall. 4. The component according to claim 1 or 2, characterized in that it consists of at least two different materials. 5. Component according to Anspr ch 4, characterized in that the side (A) of the component, that comes into contact with the flame side in the furnace, a refractory or an insulating refractory Is material, while the remaining portion is made of a heat insulating material. 709817/0780 ^ 264696Q 6 "Component according to one of the preceding claims, characterized in that at least a portion of the structural element consists of a refractory Concrete consists " Component according to one of the preceding claims, characterized in _t that at least two pairs are provided by edges on opposing surfaces of the box each provided with a projection (3) and an IT (3 °), which are nestably. 709817/0780