DE2010674B2 - Insulating wall for high temperature industrial furnaces - Google Patents

Description

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The invention relates to an insulating wall for high-temperature industrial furnaces, consisting of a direct the high temperature exposed inner lining made of insulating material and a supporting material Oven wall plate.

Such insulating walls must be exposed to temperatures of up to 1650 ° C directly and permanently can how they z. B. in high soldering, tunnel furnaces, ring furnaces and the like industrial furnaces.

Difficulties arise here in the construction of such self-supporting but also those that are not self-supporting Insulation structures, for example made of fireproof fibers or other against high heat loads and temperature fluctuation resistant Ma '. · .- alien and the load-bearing parts made of steel or the like. put together because different thermal expansions have to be compensated.

Known insulating walls for blast furnaces, ring furnaces and the like are composed of refractory stone slabs, which are attached to metal structures and carried by them. The specific weight of these insulating walls located ^ft to about 1640 ⁰ C. about 0.4 to about 1 g / cm ^3, the area of maximum acceptable temperature of about 87O ⁰ C:

A major disadvantage in the use of such conventional constructions is the high material and construction costs. The heavy superstructures made of brick-like blocks, those with refractory mortar To be carried out by trained bricklayers the load-bearing part of the electrical tape and tend to come off from the high manufacturing costs and the ho-K weight, to brittleness and cracking and thus too frequent repairs.

The invention is based on the object e.ne insulating wall of the type mentioned at the outset, their load-bearing parts and the temperature-absorbing inner lining Form a unit, easier to assemble and less susceptible to design in their overall structure. whereby a building up of individual insulating blocks to one Wall should be avoided.

The solution to this problem is that the insulating material on the support plate by means of a plurality is attached by ceramic pins, the e.ne end the pin is firmly connected to the support plate and the opposite end extends through the insulating material extends through and beyond its surface and a shoulder-like, the insulating material in semer Has a standing approach.

This eliminates any masonry work, and the Use of the mortar that tends to form cracks and different temperature coefficients of the ver different materials can be compensated.

It is advantageous to have the pins each from one on the Assemble support plate attached metal part and an existing Kera mikmaterial part.

This results in a particularly lighter and simpler one that is insensitive to temperature fluctuations Structure of the unit and a simple fastening option. Unwanted heat conduction and Heat transfers to the external structure are avoided. The ceramic material forms that of the high temperature environment exposed end of the pen. The one-unit insulating and self-supporting Isolation wall can be used as a component in a blast furnace or corresponding high-temperature chambers to be built in. The ceramic pins make it easy to position and effortless Fastening of insulation materials both low density, such as soft and flexible fibrous felt-like Fabrics or damping material as well as solid or rigid semi-structured bodies with a load-bearing Metal plate or the like.

In an advantageous development, the invention is also characterized in that it is shoulder-like Approach is a ceramic locking or washer. wherein the ceramic washer has slots and in their position by means of the attachments attached to the end of the pin in the manner of a bayonet coupling is held.

The assembly of the insulating wall is made easier by the fact that the ceramic part on the metallic Section of the pin can be joined together to form a unit by means of a screw connection, and that the metal-ceramic pin has a thread at one end onto which a nut can be screwed.

The accompanying drawings show exemplary embodiments of the invention and it shows

F i g. la a partial cross-section through an insulating wall according to the invention,

F i g. Ib a washer with seen from the front in Fig. la pen shown in side view,

F i g. 2 shows a perspective view of the ceramic part of the pin from FIG Lock washer or washer, Fig. 3 is a side elevation in partial representation of a

further embodiment,

F i g. 4 shows a further side view in partial representation another embodiment of a pen and

F i g. 5 a side view of a still lingering part Embodiment.

The isolating wall according to FIG. 1 essentially forms a self-supporting structural element, which is pin-like, joining together to form a complete unit enabling fastening members which are at least partially made of ceramic material. The insulating wall includes both the insulating inner lining of the wall and the load-bearing elements. The pins extend completely through the insulation layer and protrude above the surface the high temperature side. The layer structure of the insulating wall becomes effective with the help of the pins secured and held together without affecting the durability or density of the structure appear.

In accordance with that in Fig. la reproduced Structure of an embodiment of the insulating wall, the load-bearing part of the unit consists of a support plate 10 made of steel or other suitable metal and a laminated body made of insulating material ti, which is attached to the support plate. Ceramic pins 14, of which one section 13 is used for fastening Metal and a second part 12 made of ceramic. The metal portion 13 of the pin is with the overall structure supporting support plate 10 in a fixed connection and is the outer or cold surface of the Assigned insulating wall, while the ceramic pin 14 is through over the insulating surface in the direction of the inner or hot surface extends and is provided there with a holding member. The ceramic pen 14 can be exposed to maximum high temperature values without causing damage. The section 13 made of metal can be attached to the support plate 10 in any suitable manner, for example be attached by weld 15. In a preferred Exemplary embodiment are the screw-bolt-like sections 13 with the ceramic pin 14 by thread 16 can be connected to each other. As shown, the bolt can be an ordinary flat head bolt, which can be screwed into the ceramic pin 14. This embodiment facilitates the assembly of the insulation material on the support plate, which can be plugged onto the pins by means of through-holes.

In addition to the embodiment shown with an internal thread, the ceramic pins 14 can also have an external thread are provided, with a metal sleeve with an internal thread that can be brought into screw engagement therewith represents a union nut for the much more fragile ceramic material and therefore a special one provides a robust connection. To facilitate assembly and attachment of the insulation material the pins are designed in this way. d:> ß their ends have tips 17.

In addition, in a preferred embodiment, they are adjacent to the pointed end 17 of the ceramic pin 14 one or more pairs of lugs 18, 18 'are provided, which are located directly in front of the inner or hot surface of the insulating material 11 are located on the pins and which with washers 19 in engagement are bringable. Each locking or washer 19 is provided with a central hole 20 and itself provided by this radially outwardly extending slots 21 and 21 ', which in their size and position corresponding to ceramic pin 14 and lugs 18 and 18 ', with each washer over the end of the Ceramic pin 14 inserted behind the approaches 18 and i8 ' can be and then rotated by about 90 ° to form a bayonet-like closure. Details of the bayonet lock are shown in the perspective illustration in FIG. 2 can be found.

The preferred embodiment according to FIG. la one Isolation wall can be realized by welding metal bolts 13 to a metal plate 10, wherein

ίο then screw the ceramic pins 14 onto the bolts which reach through the insulating material 11 and wherein a plurality of, for example, fibrous shielding plates or layers 22, 23, 24, 25 is pushed over the screwed-together pins. Afterward the locking or washers 19 are pushed over the ends of the pins and directly anchored behind the lugs 18 and 18 'by turning through about 90 °

The F i g. 3 and 4 represent modified exemplary embodiments with ceramic pins that are similar in structure to ordinary bolts. According to FIG. 3 is the insulating material 11 on the support plate

10 through a plurality of perforations 26, which ceramic floor 27 with an enlarged diameter head 28, fastened the flat heads of the bolts 27 form shoulder-like brackets for fastening the insulation material. The bolts 27 are preferred provided with a shaft 29 large diameter, the length of which is approximately the depth of the insulation wall corresponds, with shoulder-like lugs 30 are provided with a diameter that is larger is than that of the holes 26 in the support plate 10. The holes 26 are those of the bracket and Fastening for the adjustment of the bolts Sections of the ceramic bolts 27 passed through, which are provided with thread 31, through which a screwable nut 32 is the permanent fixture and fastening of the ceramic bolt 27 ensured. Because the nut 32 on the cold surface the unit is provided. Can be made of metal or other only resistant to low temperatures Material. With this arrangement, an insulation material of lower density and higher resistance can be used without fear of undesired compression of the same.

F i g. FIG. 4 shows a further bolt-like ceramic pin 33, which passes through a recess 26 in FIG Support plate 10 is passed and has a head 34, the diameter of which is larger than the recess 26 is. The opposite limiting end of the ceramic pin 33 is acted upon by thread 35, on which a ceramic washer 36 and a ceramic nut 37 for holding the washer 36 is applicable. In the embodiment according to FIG. 4 is as in that of FIG. 3, the insulation material U and the support plate 10 brought into position at the holes 26 and put together in juxtaposition, the bolts through the insulating material

11 can be pushed through by simply applying force, if this is of low density, while pre-drilled holes are previously made in the insulating material in alignment with the recesses 26 should this be necessary due to the resilience of the material. The washers as well as the nuts are screwed onto the ceramic bolt 27 or 33.

In the embodiment according to FIG. 5 are threaded provided nozzles 38 attached to the support plate 10

welds, wherein a ceramic pin 39 can be screwed onto the nozzle. The ceramic shaft 39 is designed sleeve-shaped for this purpose and provided with an internal thread. The end of the ceramic shaft 39 is opposite to port 38, if necessary, with a pair of preferably opposed Approaches 40 and 40 'provided with slots in the washer 41 a bayonet coupling can be brought into engagement and securely and permanently hold the insulating material 11. In the event that stiff Material 42 is used, holes 43 can be drilled into this beforehand.

The ceramic-metal pin arrangement is made so that the ceramic pin from the hot inner surface extends from through the insulating material to where the temperature is reduced enough so that the metal pin is not exposed to excessive heat. For a metal with high resistance, such as rustproof Steel, the maximum temperature can be up to about 816 ° C. However, this temperature should not be exceeded, while with ordinary steel, the temperature must be less than 260 ° C to a to enable permanent effective firing of the furnace or a corresponding high-temperature chamber.

The described units of the insulating wall can be used to form complete furnace enclosures or other high-temperature chambers be put together.

The use of suitable ceramic materials for the ceramic pins or at least for the part of each pin adjoining the hot inner surface enables the insulation body to be fully inserted with material that is insensitive to high temperatures without the individual parts being damaged as a result. The ceramic parts can be exposed to temperatures as high as 1370 ° C.
As an insulation material with high temperature resistance

ίο can be felt-like as well as plate-like, high Refractory fiber materials made of aluminum silicate or the like, used in the area of high-temperature interior surfaces Find.

The individual layers of the insulating body are constructed in such a way that further back, i.e. H. between the high-temperature insulation layers and the metal plate, cost-saving insulation materials of lesser Temperature resistance, such as glass or mineral wool, are used.

The insulation material used can, for. B. a magnesium compound, hydrogenated calcium silicate, but preferably fibrous insulation material, which essentially consists of aluminum and silicate contains, be.

For example, aluminum compositions are used for the ceramic pins or mullite, sintered aluminum oxides, magnesium-titanium spinels, synthetic sapphire (Synthetic sapphire). Magnesium, zirconium or zirconium earth, silicon carbide etc. can be considered.

1 sheet of drawings

Claims (6)

Patent claims: 1. Fire wall for high temperature industrial furnaces, consisting of an inner lining made of insulating material that is directly exposed to the high temperature Material and a supporting plate of the furnace wall, characterized in that the Insulating material (11) on the support plate (10) by means of a plurality of ceramic pins (14) is attached, one end of the pins to the support plate (10) is firmly connected and the opposite end extends through the insulating material (11) and extends beyond its surface and is a «sisterly». the insulating material (11) in its own Has a standing approach 2. Wall according to claim 1, characterized in that: that the pins (14) each consist of a metal part and a metal part attached to the support plate (10) Ceramic material existing part are composed. 3. Wall according to claim 1 and 2, characterized in that that the shoulder-like approach is a ceramic locking or washer (19). 4. Wall according to claim 3, characterized in that the ceramic washer (19) has slots (21. 21 ') and in their position by means of the attached to the pin end lugs (18, 18 ') is held in the manner of a bayonet coupling. 5. Wall according to claim 1 to 4, characterized in that the ceramic part on the metallic Section of the pin can be assembled into a unit by screw connection. 6. Wall according to claim 2 and 3, characterized in that that the metal-ceramic pin has a thread at one end onto which a nut can be screwed is.