DE526534C - Firebox wall - Google Patents

Description

Firebox wall For fireplaces that have an air jacket for thermal insulation have against the outside air, so far had to be the one between the dieseln air jacket and the Inner wall part lying on the firebox, which actually only represents a fireproof backdrop, which separates the insulating air jacket from the gases in the combustion chamber, for reasons of strength are always carried out stronger than the technical purpose of the fire requires. Also through the approval of high loads or through the formation of the combustion chamber in In the shape of a sphere, this deficiency could only be remedied to a small extent. However, such constructions are particularly costly because they are next to carefully carefully selected and specially prepared stone material Require bricking up the wall. Curved furnace walls are also suitable for attachment a cooling grate for granulating the slag is unfavorable.

According to the invention, in order to avoid the disadvantages described suggested the inside of the furnace wall by protruding on one side Fireproof shaped bricks that are hung on hooks and overlap like roof tiles to cover and thereby to form the shaped stones as thin plates and to hang them up in such a way that between the wall to be protected and the shaped stones an insulating air gap remains, which is used to preheat the combustion air. With such an arrangement The individual building blocks can be hung up by themselves, making them suitable for everyone external stress are relieved. The stones do not need the weight of the Taking up higher lying wall parts, they still find resistance to thermal expansion. As a result and as a result of the constant cooling by the fresh air not to be more measured than necessary for their own inner cohesion is, so that a minimum of wall thickness is made possible, which has significant advantages has the consequence.

As already mentioned, the internal walls had to be built up for reasons of strength received a considerable wall thickness, and the thick inner wall left very little Heat through so that the combustion air entering the furnace from the wall cavity had too little preheating. One was therefore forced to venture out before introduction into the hollow fire wall through a special upstream air preheater to lead through. This disadvantage is avoided by the invention. Through training the shaped stones as slabs, which are thinner in their thickness than the usual masonry Internal combustion chamber walls becomes an intensive air preheating in the simplest way achieved, which promotes combustion in the desired manner.

It is known per se that the interior wall of the furnace is made of tiles to cover shaped bricks suspended on top of each other; the well-known firings of these Kind but have no space between the brick wall and the outer furnace wall, through which the combustion air could be fed and preheated. Further up to now, the molded bricks were very thick and as close as possible to the wall that supported them brought in so that they were given a complex and varied shape. It it is clear that such stones can be made much worse than the thin plates according to the proposal of the invention; especially occur when burning There are slight cracks from thick stones on the inner edges, which are points of attack for which represent further destruction. These disadvantages are also alleviated by the invention avoided. In addition, the wall thickness of the panels is determined in individual cases by tests to be determined taking into account all of the circumstances in question, in principle, however, should be kept as low as possible.

The outer, non-refractory wall of the combustion chamber can be used to hold the stones expediently, as is known per se, receive special strips on which the refractory Stones are hung in rows on top of one another, like roof tiles on the roof battens. In the case of portable systems, the aforementioned retaining organs for the stones are best claw-shaped and opposite them on the same surface of the stone Opposing claws arranged so that they can be pushed onto the retaining strips and embrace it from two sides. Should the air serving as thermal insulation continue are used as preheated combustion air, a supply point easily bring this combustion air into the combustion space in that spacers between the overlapping parts of the refractory inner wall are arranged; so that there are gaps for the air to pass through. As retaining bars water pipes can also serve, which cool the inner wall of fire and in turn Are parts of a steam boiler system.

When lining fire boxes, the system of retaining strips can be used advantageously combine with the stud bolts to form a constructive whole.

In the drawings are some embodiments of the invention shown. Fig. A shows a section through a combustion chamber with the proposed Suspension of the stones. The cladding masonry i is provided with strips: 2, on which the scale stones3 are hung. The individual rows of plates are each time offset by half the plate width. Because the plates are individually Rows arranged one above the other always overlap half of each other, are here also covers the vertical separating joints so that the air ducts ¢ against the Firebox are sealed. In the design according to Fig. B, this seal is the air ducts against the combustion chamber caused by lateral overlapping of the stones, as shown in Fig. C again, especially in section. Fig. D shows a single Brick of such a wall.

Fig. E shows a design that enables the fire chambers to supply air flowing around the furnace at any point as combustion air. It is known that the walls of the firebox are built from stones that where air supply is required, are criss-crossed with thin channels. The mouths of these Channels are easily clogged by slag running down the walls and lift the purpose of the air ducts. When carrying out the subject matter of the invention this is not possible. The air channels 7 are formed between the scales by attached warts-8 or the like. The air is fed tangentially to the combustion chamber. the always protruding edge 9 of the overlying stone forms a drip edge that prevents the air openings from flowing in.

Fig. F shows an application example for fire boxes, e.g. B. for locomotives. This would have to be continuous or subdivided on the inside of the fire socket Bars are provided, for which one will expediently use copper. These bars can for example be held by the stud bolts.

In Fig. G the stones are designed in such a way that they clasp the ridges.

Claims (3)

PATENT CLAIMS: i. Firebox wall, the inside of which goes through on one side protruding hooks suspended, overlapping, fireproof like tiles Shaped stones is covered, characterized in that the shaped stones as thin plates are designed and suspended so that between the wall to be protected and the An insulating air gap remains, which is used to preheat the molded stones Combustion air is used. 2. combustion chamber wall according to claim i, through this characterized in that the holding members of the plate blocks are claw-shaped and together with special counter claws provided on the stones are the retaining strips embrace on two sides. 3. combustion chamber wall according to claim i, characterized - characterized, that spacers are arranged on the paving stones with which they are against support the lower hanging stones. q .. combustion chamber wall according to claim i, characterized characterized that the strips for hanging the stones in firebox kettles by the studs are held.