DE1906954U - HOLLOW BLOCK FOR THE PRODUCTION OF A LINING TO WHICH HOT GASES ARE IMPACTED. - Google Patents

Description

Hollow block for the production of a brick lining that is exposed to hot gases

The innovation relates to a hollow block (block) for the production of a brick lining that is exposed to hot gases, ZoBo of firing systems, drying systems, hot gas ducts, etc., the blocks of the same structure made of temperature-resistant and heat-insulating material or Materials j. The blocks according to find the innovation primarily for the production of linings to low and moderate temperatures using, s.3o for high efficiency boiler in which the combustion chamber is enclosed by risers _s which are laid with a small gap adjacent "The known lining such-Kassel, which in Layers perpendicular to the direction of heat flow behind "" cTen. Rigid tubes are arranged, consists of Schaiuotteplatte to which

Connect to the outside to insulating blocks, if necessary an aluminum foil, on which a layer of wool is placed, which rests against the steel skin of the boiler. This construction of the known brick lining is cumbersome and expensive.

The innovation is based on the idea that the brickwork is essentially the same as one another Build blocks that have the same thermal insulation effect like the well-known brickwork. For this purpose, the blocks according to the innovation are hollow and their outer walls are made of refractory material. Several chambers can be provided. The cavities are expediently filled with insulating material. The blocks according to the firing can be on all sides closed, partially open or provided with perforations in part of the walls.

In the drawing, the subject of the innovation is shown in some exemplary embodiments. Show it

1 with a block closed on five sides four longitudinal chambers,

2 shows a block closed on five sides with four chambers arranged one above the other,

Fig. 5 is a cross-section through a block having six cavities oriented in the direction of heat flow lying one behind the other,

—2—

4 shows a block closed on four sides in plan view, and

Pig. 5 a further block with incorporated fastening tubes, also in plan view.

According to FIG. 1, the block 1 is closed on five sides and provided with four longitudinal chambers 2. These can reduce the convective heat transfer with heat insulating Material to be filled out. As such, slag wool, mineral wool, glass wool, crinkle staniol, Tinfoil strips, "vermiculite, and the like. The walls of the Blocks are made of refractory material, e.g. chamotte.

It is useful if, according to the innovation, the blocks are made so deep that it is not necessary to arrange several block coulters one behind the other in the direction of heat flow A. Has the block 1 rectangular Cross-section, it can be used to produce brickwork of different thicknesses. As a result of its structure the heat flow direction corresponding to that in the 3? ig. 1 be arrows A or B shown. If all four longitudinal walls of the block are made approximately the same, this is suitable These are available for quick hot repairs by mostly opening the The block damaged on the combustion side was removed, rotated 180 ° and reinserted with the previous rear side will.

The block 1 can also be open on both ends.

—3—

After the depth of the block 1 is predetermined by the thickness of the brick lining, the width results and the height of this block by limiting its weight, so as not to make this block easy to handle to endanger. In general, the blocks will not be made heavier than 50 kg.

Usually the width of the blocks is also due to the structure of the boiler or the like. given, so that only the Height can be varied accordingly. In any case, according to the innovation, the size of the block exceeds the dimensions the previous stones for the conventional brick lining many times over, so that the brick lining can be built up very quickly results.

The one in Pig. Block 3 shown in FIG. 2 has an open one Back and is divided into several superimposed chambers by means of partitions 4. The open back can be closed after inserting the insulating material. Often a transport lock is sufficient, which is intended to prevent the insulation material introduced during transport and assembly of the block falls out. The arrangement of foils, cardboard, wire mesh, etc. is sufficient for such a closure Transport lock during operation, e.g. of the boiler, does not do any harm, as the brickwork is still covered by plastering or a steel skin and the like is covered.

This cover can also be designed in this way.

that it brings additional insulating effects and sealing properties e.g. by using a metal foil. In this case, the cover can protrude beyond the block surface and glue this protruding hand to the neighboring blocks.

The one in Pig. 3 block 5 shown in cross section are six cavities 6 in the heat flow direction A arranged one behind the other. These cavities can also be filled with heat insulating material. this is expediently done by building up the block in layers by first adding the wall 7 poured as the bottom, then a cut-to-size slag wool mat or the like. placed and then the first partition 8 is made, etc. The block 5 can be attached to a or be closed at both ends. The production method described is the insulating material a refractory material that forms the block wall, incorporated, so that excellent mechanical strength results. The block can also be installed so that the heat flow is in the direction of arrow B.

The one in Pig. 4 block shown in plan view 9 a single chamber 10 is provided. The stone is open at one end, so that heat-insulating material in the Cavity 10 can be filled. The open back of the block 9 is anchored in the walls 11 with a Masehen-

—5—

wire 12 closed.

The end walls, the side walls, the rear wall or the partition walls of the block can be provided with openings in order to achieve a lower weight of the block. The size of these openings is only limited by the requirement that the heat insulating material filled in must not escape through the openings by itself. Such breakthroughs are in block 13
according to Pig. 5 indicated in the side walls and given the reference 14. In addition, the block seen from above is open at one end. A plurality of tubes 15, which are preferably made of refractory material of sufficient mechanical strength, are also arranged in it. They are used to attach the block by being pushed onto metal spikes that are attached, for example, to the riser pipes, to a supporting frame or to the outer steel skin of the system.

The blocks according to the furnace not only allow a quicker and easier construction of the brickwork, but also reduce the number of harmful gaps between the individual building elements compared with the conventional brickwork type. Because the
The walls of the blocks consist of a uniform material according to the price increase, thermal stresses are avoided, as is the case with the conventional type of bricklaying due to the different thermal behavior of the various layers

-6-

be evoked. Another great advantage of the brick lining made with blocks in accordance with the control is there in their low weight, so that the load-bearing parts of the system and the foundations can be dimensioned weaker. " In the case of a brick lining made from blocks in accordance with the control system, it is also possible to repair it by simply replacing it damaged blocks. Easy to carry out with new blocks. Furthermore, storage is considerably simplified, since only in special cases individual special formats are needed,

Noteworthy is the high insulation effect of the brick lining made from blocks according to the innovation, which despite the high mechanical strength is achieved »Likewise with the-. Blocks according to the rules great surface hardness and high-. Combined fire resistance of the outer layers «,

The innovation is not limited to the embodiments illustrated "For example, the blocks may have different format and / or be provided with recesses for the accommodation of downpipes or anchoring elements, etc." Optionally, the blocks reinforced _s, any particular reason to be there, "■ '■ -

Claims (1)

RA. 775 317 * -ί ».11. Protection a; c. s ρ γ ü c h e 1) Hollow block for the production of a lining that is exposed to τοπ hot gases, for example. of firing systems, drying systems, Efcißgaskanäian and the like, which has blocks of the same structure made of temperature-resistant and heat-insulating material or materials, characterized in that these blocks (1-, 3 _S 5-, 9-13) are hollow and their outer walls consist of refractory material. 2) block according to claim 1, characterized in that several Chambers (2, 6) are provided " 3) Block according to claim 2 _9, characterized in that the mern (6) lie one behind the other in the direction of heat flow (A). 4) block according to claims 1, 2 or 3 * characterized in that that the walls, with the exception of those exposed to hot gas, have interruptions (14). 5) Block according to one of claims 1 to 4 _S, characterized in that the blocks are closed on all sides, 6) block according to one of claims 1 to 4, characterized in that; 5! the blocks on .dar With regard to the heat flow = direction (A) the outer sides are open ₀ . 7) Block according to claim 4 or 6 _S characterized in that the open side bsw _o the openings (14) with a ■ '-8- !) Block after the M ^ oJioi ^ u. \, 6 and 7, characterized in that the cover sv.aätsj .- '. CLs Isolier- and Ab & ichteigens chaf 18U on we :. * t 9) block according to claim 6, d. «: Uirch characterized that the open Side i ^ r blocks is covered by egg: i ifeschgitter (12). 10) Block iii one of four claims 1 to 9 _? characterized _{9 in} that the depth of the blocks: '_; . he called, the maneuvering corresponds to ₀ 11) block ave one ier claims 1 tia '^; 0- df-.by identified that the weight of the Jlöcka is approx. 50 kg « 12) Block M-I a ler Anspi'üohe 1 to H ₉ characterized, d -? ..: 3 the cavities completely or partially with heat-insulating material or M ^ t- ¹ TIaMoH ₅ as si. Bo mineral fibers _? Glass = wool _? ^ cfc.lackenT / nlle, Staniols '". mature, Kiitterstaniol, under the ben; gluing' ^? veinj.:;ul.*-t" bskaBntea material and the like _{o aus-} / are filled « 13) block according to claim 12 characterized gekennL-i 3iuiet ₉ that the fill ». lung ce .: Eoh.lTB.VMB in the fire-swept IJate :: iEl of the walls .- ■ 'is bound » 14) Block according to one of claims 1 to 13, characterized in "that the blocks are araiert." .. 15) block according to a © of the anapriiclie 1 to 14, characterized in that äaJ) tubes (1Jj) are aipge ^ eosri, the -rur attachment to. ■ ■■ load-bearing parts of the G-erürteo or similar ₀ dienes _{or similar}