DE1114515B - Wind heater with separate combustion shaft - Google Patents

Description

Wind heater with a separate combustion shaft There are known wind heaters, where there is a multilayer partition between the fire shaft and the latticework is arranged, which has a middle insulating layer to the heat transfer to complicate between latticework and combustion shaft. It is also known Separate the dome and shaft jacket from each other and the dome by a to connect sliding pressure and / or immersion seal to the shaft jacket.

Furthermore, there are wind heaters for metallurgical plants and the chemical industry known, in which burning shaft and latticework in the way separated from each other be that both parts are each surrounded by a sheet metal jacket, which is like a Y-pipe are provided with a common dome, which in cross-section .Eiform owns. The underside of the dome has a sheet metal base corresponding to the space in between or transition from the large latticework area to the small combustion shaft area. Of the The ground is walled up with stones. With this known design, the difficulties to be overcome, which in the known common construction of Brennschacht and Latticework occur in a common mantle. These difficulties exist in that the different expansion of the refractory structure cracks, especially in the firing shaft, which are increased by the contact pressure will. These cracks have a premature destruction of the masonry by action the result of the gases, which occurs to a greater extent above all, if still Zinc or alkali dust is present in the fuel gas.

Furthermore, the cracks and the subsequent destruction of the Masonry the risk of short circuits, d. H. the immediate passage of the fuel gases through the combustion shaft in the lower part of the latticework. If also these difficulties have been resolved by this separate construction in the combustion shaft, so new difficulties arose insofar as the cracking was now in the common dome occurred, the construction of which as a result of the intricate design the dome and the double sheet metal jackets are extraordinarily complex.

The invention has now set itself the task of addressing these disadvantages eliminate, and concerns a stove with one between the combustion shaft and Lattice work arranged in an arched multilayered partition, in the middle a metal wall is arranged to match the curvature of the arcuate partition adapted and the one in the interior of the burning shaft and the latticework Sheet metal jacket arranged sliding flange. is inserted. The metal wall ends approximately 1.5 to 2 m below the fire bridge. In addition, it is on both sides by an or several layers of insulation against the masonry of the firing shaft or the latticework isolated. But it is also possible to use a known heat-resistant material.

The metal wall consists of individual shots that are in place can be united with each other by welding or riveting and that during erection the heater coats are inserted in the same way as the usual coat. Of course, this sheet metal wall can also be used in an existing boiler be inserted by after emptying the heater or at least the Firing shaft on the heater jacket inside two metal sheets inserted or in an angular shape be riveted to a sliding slot for the arcuate to be inserted Preserve sheet steel wall. Through this metal wall that extends both to the side as well as being able to expand freely upwards according to the effect of heat, will despite of the all-round wrap-around heater jacket, there is still a complete separation between Burning shaft and latticework reached. The firing shaft can now be used on its own work, also the latticework. The risk of short circuits is eliminated, too the formation of cracks, both in the furnace and in the hemisphere. The common The section of the wall at the fire bridge, on the other hand, is harmless because the fire shaft at this point Dome and the uppermost stone layers of the latticework approximately the same temperature have reached and also the firing shaft masonry and lattice masonry without mortar connection crunch be put on. The firing shaft masonry works with the same thermal expansion like the mantle masonry against the overlaid dome. By pasting the metal wall the tearing off and tilting of the fire shaft, which often occurred in the past, becomes a latticework prevented. The stability of the entire heater is ensured by this invention significantly increased.

By inserting the metal wall between the furnace and the latticework the usual cross-sections of the heater are not affected, d. H. so in particular, that a cross-sectional narrowing does not take place.

An exemplary embodiment of the invention is shown in the drawing.

Fig. 1 shows a longitudinal section through the heater with the invention Partition wall; Fig. 2 shows a section of a cross section through the boiler with the partition along line B -B; Fig. 3 shows the upper end of the partition with the fire bridge as section a from Fig. 1.

The wind heater has the known sheet metal jacket 1 that encompasses all sides and merges into sheet metal dome 2. The lattice masonry 3 is not shown further. Only the mantle masonry 4 of the latticework is indicated. The masonry of the firing shaft 5 is also only indicated. The common fire bridge is marked with 6, the dome masonry with 7. In the common sheet steel jacket, two sheets 8, 9 are welded or riveted to the seam between the combustion shaft and the latticework, which form a guide slot for the metal wall 10 . This wall intervenes on all sides, leaving a margin. It ends, as Fig. 3 shows, about 1.5 to 2 m below the upper edge 11 of the fire bridge. Insulation consisting of several layers 12, 13, 14, 15, 16, 17, 18, 19 is provided on both sides of the partition, for which various materials known per se are used. The insulating layers are covered by horizontal layers 20, 21, 22, 23 on the fire bridge. However, they leave sufficient leeway for the sheet metal wall to grow as a result of the effects of temperature. The fire bridge has a seam 25. The stones of this bridge are crunched together without mortar. However, the horizontal layers (e.g. 26) of the fire bridge bricks are walled up with mortar.

Claims (3)

PATENT CLAIMS: 1. Wind heater with a multi-layer partition wall arranged in an arc between the combustion shaft and lattice work, characterized by a metal wall (10) arranged in the middle of the partition wall and adapted to its curvature, which is inserted into a sliding flange (10) arranged inside the sheet metal jacket ( 8, 9) is inserted. 2. Wind heater according to claim 1, characterized in that the inserted metal wall (10) ends approximately 1.5 to 2 m below the fire bridge. 3. Winder heater after Claim 1, characterized in that the inserted metal wall (10) on both sides by one or more layers of insulation against the brickwork of the firing shaft or the latticework is isolated. Publications considered: German U.S. Patent No. 723,295; USA: Patent No. 2,420,373.