DE621304C - Furnace wall with embedded metallic pipelines for a coolant and method for making the wall - Google Patents

Description

Furnace wall with embedded metallic pipelines for a coolant and method of making the wall The present invention refers to furnace walls that were erected with one in a plastic state and form a solid block when dry. refractory linings are provided, and aims at an effective cooling of the entire feed mass.

It has already been proposed to cool such a wall lining Long, vertical metal pipes in them, in which a coolant (air or water) circulates, fully or partially embedded as well as the evenness the cooling inside the food mass by attaching metallic wings to increase on these pipes. However, there is a major disadvantage of this type of cooling in that owing to the difference in the expansion of the refractory mass and of the metal of the said pipelines are relatively considerable displacements between the pipelines and the surrounding refractory mass, whereby the intimate contact between the refractory mass and the pipelines is lost and thus the cooling effect is significantly weakened. The other hand is when external There are wings, an extraordinarily rapid breakdown of the refractory mass ascertain.

According to the present invention, these disadvantages are eliminated by that the cooling lines are formed from short sections that are independent can expand so that only minor shifts between the refractory Lining and the aforementioned ducts occur at any point of the latter.

According to a particular embodiment, the cooling lines consist of corrugated pipes, which are preferably provided with wings.

You can also get through these cooling lines in a less costly way Stacking a large number of individual tubular members that can expand freely at one end, while the other end axially on the wall. feed, preferably with the intermediary of one at the end of the tubular member attached cuff.

Both in the event of the application of corrugated pipes as well as for the application of the described. individual pipe links it is It is advantageous to connect the cables with the outer ones. of any kind to be provided and in these wings. make any incisions, holes or openings in order to a close connection between the two sides. layers located on these wings of the feed.

The invention also relates to a. novel process to erect the walls described in it, in which the lines _ by stacking individual pipe links are produced. According to this procedure, one embeds in the Forage mass during its installation in plastic form combustible parts of suitable Shape, for example wooden or cardboard tubes, the length of which is greater than the one of the metal pipe sections, and pulls the metallic pipe links so that after destruction of the combustible parts through the heat of the space in the imiern of the pipe members is released.

Further characteristics of the invention are given in the description below various embodiments thereof emerge, examples of which in. The drawing again- . given are.

In this drawing, Fig. I is a mustard-like section along I-1 in Fig. z by a plastic wall lining, which by in according to the invention arranged lines circulating air is cooled.

Figure 8 is a front elevational view of the inside of one Wall.

3 gives a horizontal section along 111-11I of the in. i - illustrated wall.

Fig. 4, which corresponds to Fig. I, represents the wall during the Structure of the plastic lining.

Thief @Fig. 5 is a vertical section through a wall, .whose Cooling lines are formed by corrugated tubes.

Figures 6 and 7 are half-views of the tubular cooling members with jagged @cuffs.

8 and 9 show, respectively in plan and elevation, other embodiments the cooling links.

In Figs. I to 5 -is with i the outer wall, which is the carrier for the refractory ramming mass forms, denoted by z, the plastic and refractory Lining, with 3 the lines for the air circulation and with 4 the metallic ones in the lining z embedded cooling spigot.

In Fig. 4 you can see the combustible parts 5, the. in the embodiments i to 4 are applied to the inside of the lining 2, the cooling lines 3 to apply. In the case shown, these parts 5 are formed from cardboard tubes, around which one finds the basic mass of the fodder at the moment the latter is built up tamped down.

In the embodiments of FIGS. 1 to 4, those are for reinforcement the cooling effect determined pin 4 each through the sleeve of a rigid, tubular, metallic tubular member 6 is formed. It can be seen from FIGS and a, that the individual links 6 are arranged end to end, but not each other touch, as each of them rests on the feed mass z and a. circular cavity between the end of the pipe that does not have a cuff and the cuff of the adjacent pipe section is recessed, so that a channel is formed whose metallic wall provided with numerous interruptions in the longitudinal direction is to accommodate the expansion.

In place of these pipe members, one can just as well use finite cuffs use the cooling members shown in FIGS. 8 and 9 with longitudinal pins.

The cooling members, whatever their nature, will be during of the "build-up of the lining held by the tubes 5 on which they are in turn Lined up from top to bottom (Fig. 4), the cuff down if they are provided with such. This way it becomes a slight tamping down the feed mass allows one around each link 6 that is just lined up has been stratified, in such a way that a stratum of equal or very little greater thickness than the height of this limb arises; then the following is added Limb that rests on this layer or on the preceding limb, and goes to pound a new layer over. To a gap between two cooling links To cut out, you can put a disc of combustible material, cardboard or similar between them. Like. Lay, as FIG. 4 shows. After destruction of the parts 5 by burning one obtains the wall shown in section in FIG.

In FIG. 5, which corresponds to another embodiment, recognizes one the corrugated metal tubes. 7, which form the lines 3 for the air circulation and around which the feed mass is tamped down. If in this case one pegs 4 applies, these are in the long run carried by these tubes, and the mass must be layered between these tenons.

On the other hand, one recognizes in FIGS. 6 and 7 examples of jagged Cones that a sufficient connection between the two sides Allow lining layers located on a cone. These serrated cones can obviously be used in all cases, whichever embodiment may be chosen for the cooling channels of the wall.

In. the modified forms of cooling members shown in FIGS. 8 and 9 are shown, the pins are placed in the longitudinal direction of the pipe, and In Fig. 9 there are even inner longitudinal pins, whereby the surface of the heat exchange is increased considerably with the air circulating in the channels 3.

The Fig. Q. 5 and 5 simultaneously show a type of anchor iron that is used for Serve to connect the outer masonry i with the ramming mass, make it usable, to hold the metal pipes 7 or the combustible bodies 5. In the example a piece 8, preferably made of fireproof material, is provided which is inserted into the lining 2 is embedded and held by a rod g, the end of which is in a tab io passes, which is embedded in the part i of the wall. The rod 9 engages in the Tab i o such that it can be rotated about a vertical axis and in a vertical direction Direction is displaceable, and carries a metal piece i at the opposite end i in the form of a cylinder segment with a vertical axis that corresponds to a correspondingly shaped Part of the piece 8 rests exactly, preferably with the interposition of a plastic or elastic pad 12. Of course, there is a passage for the rod 9 in the form of a sufficiently widened hole in the piece 8 cut out to allow room for maneuver for the angular displacements between the rod and the piece 8 to give. This Anchoring piece 8 is in the case of Fig. Q, and 5 brought into use to the Parts 5 and 7 to support and at the same time the connecting link between two to form successive sections of the lines for the air circulation. to for this purpose, a cylindrical hole is used in the illustrated embodiments 13 drilled through the piece in its full thickness, at both ends the ends of the adjacent parts 5 and 7 abut; the wall of this hole itself serves on the other hand to support the piece B.

Of course, those described above or in the Drawing reproduced execution details, which are only given as examples do not constitute a limitation of the invention, the completely different embodiments allows. In particular, the cooling channels can also be laid out horizontally instead of perpendicular, as in the drawing.

Claims (7)

PATENT CLAIMS: i. Furnace wall made of plastic, refractory lining with embedded or partially embedded metallic pipelines for a coolant (air or liquid), characterized in that the lines are designed to be flexible in short sections against longitudinal expansion, so that only insignificant shifts between the coating mass and the lines at all Points of the latter can occur. 2. inflation wall according to claim i, characterized characterized in that the cooling lines consist of corrugated tubes. 3. Furnace wall according to claim i, characterized in that the cooling lines consist of a large Number of coaxially stacked pipe members exist in the longitudinal direction can expand freely at one end, while the other end axially leaning on the lining. q .. Furnace wall according to claim 3; characterized, that the pipe members are provided with a cuff at one end. 5. Furnace wall according to claim i to 4, characterized in that the cooling lines on the outside Wear wings of any kind and that in these wings any incisions, holes or openings are attached in such a way that a close connection between the to Allows parts of the coating or lining lying on both sides of these wings will. 6. A method for producing a furnace wall according to claim 3, characterized characterized in that combustible in the feed mass when it is installed in plastic form Parts, for example wooden or cardboard tubes, are embedded, the length of which is greater is than that of a metallic pipe member, and that on these combustible pipes those metallic pipe members are pulled up so that after combustion the combustible Parts of the space located inside those pipe sections becomes free. 7. Procedure according to Claim 6, characterized in that first those combustible parts in the desired Position and then from above on these combustible parts one after the other The metallic pipe pieces are put on by, if necessary, the cuff arranged downwards, and that the plastic material around these pipe parts is then in the way that a layer of a thickness is formed which is equal to or slightly greater than the length of the pipe part, and that in this Way alternately pipe parts and a corresponding layer of plastic material introduced will. B. The method according to claim 6 and characterized in that a flat combustible part, e.g. B. a wooden disc, at least between some pipe links is used so that after. Burning of these flat flammable parts inside of the lining free spaces are created in which the free ends of those metallic Pipe parts can expand without affecting the end of the adjacent pipe parts to press.