DE2302205A1 - CIRCULAR CONSTRUCTION MADE OF REFRACTORY STONE - Google Patents

Description

The invention relates to the wall of a substantially circular vessel for molten metal. It concerns the invention particularly an inductively heated circular Cfen and the like.

In a furnace or melting vessel of this type there is an induction coil Provided polygamy surrounds the refractory lining of the furnace. If an alternating current flows through the coil, magnetic lines of force penetrate the refractory furnace wall, which eddy currents in the one recorded in the furnace

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Create metal. The eddy currents are used for rapid heating and melting the ketallic charge.

So far, the refractory walls of a melting vessel of this type are made of curved or curved "refractories" Stones were made whose abutting edges extended along the radius of the melting vessel. This means that the edges of the stones are essentially butt against each other. If stones of this type are heated, they are subject to thermal expansion, which tangential or circumferential forces generated that reduce the radius of the furnace in the

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every heated ring-shaped structure is the EaIl. Through this · the ramming and insulation material is pressed against the induction coil surrounding it, causing the induction coil permanently deformed and caused cracks in the furnace vessel v / ground, which allow an outflow of the molten metal.

The invention is therefore based on the object of creating a wall for an essentially circular furnace, the heating of the furnace without damaging effects of the thermal expansion of the individual refractory bricks of the turn allowed.

According to the invention, this object is achieved in that the wall consists of bocer.forr.ir ^ ewölbT-e: - Refractory bricks, the abutting edge surfaces of which at both opposite ends are uniform, Form acute angles with the radius of the vessel, so that the forces created by thermal expansion in the stones sliding the edge surface of at least one of the

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Stones on the adjacent Ilaraten surface of a Kachbarstein without noticing the radius of the wall to enlarge.

This creates a circular construction made of refractory Stones proposed made from arcuately curved refractory bricks consists, the abutting edges of which form even acute angles with the radius of the furnace. In order to it is possible for every stone to slide on the abutting edge of the neighboring stone, so that circumferential or longitudinal forces do not lead to a noticeable increase in the furnace radius due to thermal expansion.

According to the invention, a substantially circular furnace, or crucible, is made of "arcuately curved refractories Stones proposed in which the formation of cracks in the furnace wall and the occurrence of expansion is essentially switched off in the radial direction due to the thermal expansion. This success is made possible by the "Use of refractory bricks achieved their abutting Form edges with the furnace radius at even, acute angles.

The vessel constructed according to the invention is particularly suitable for receiving molten metal or the like and has a wall made of curved Refractory bricks that are stacked on top of one another. The abutting edge surfaces of the refractory bricks at the opposite ends form uniform, acute angles with the radius of the vessel, creating the in the stones generated thermal expansion forces a sliding of the surface of at least one of the stones on the adjacent edge surface of an IT neighbor stone without causing a noticeable enlargement of the wall radius occurs. The edges

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at opposite ends of the curved stones are inclined or beveled in the same direction, each edge surface being defined by a line drawn from the inner radial end of an edge surface of a stone to a point on a circle which lies between the center of the 'vessel and the inner circumference of the wall. Here is the one mentioned
Point on the circle determined by the intersection with a radius which intersects the inner radial end of the other edge faces of the stone.

According to a preferred embodiment of the invention
The circle mentioned above has a diameter which is half the diameter of the inner circumference of the vessel. The diameter of this circle must, however, be greater than 0 and smaller than the inner diameter of the furnace or Melting vessel wall.

An embodiment of the invention is shown in the drawing and is described in more detail below. It
demonstrate:

Fig. 1 is a plan view of an induction furnace
according to the state of the art,

JB "Fig. 2 shows a section through an oven
the prior art according to FIG. 1,

Fig. 3 is a plan view of a corresponding to the
Invention supplied furnace,

Fig. 4- the manner in which the slope
or bevel on the opposite one another
lying ends of the curved stones inside

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half of the oven "is determined and

Fig. 5 is an enlarged view of the in Fig. 4-

illustrated arrangement, which the forces shows the in the abutting edge surfaces of the curved stones according to the invention due to the ^ thermal expansion appear.

As can best be seen in FIGS. 1 and 2, the one shown has Furnace made of refractory bricks 12 cylindrical V / a η dung 10 and a bottom, which consists of a plate 14 is made of refractory material. The wall 10 following an induction coil 16 is provided, which with can be connected to an alternating current source, not shown. The coil 16 is surrounded by a support structure, which in the illustrated embodiment comprises a cylindrical jacket 18, which on a base plate 20 rests. Located between the stones 12 and the induction coil 16 a layer 15 of rammed mortar. As Fig. 1. shows the stones 12 have an arched or curved shape and have opposite end surfaces, which touch one another along the radius of the circular wall 10. As a result, they are mutually located touching surfaces on lines passing through the center point of the circular structure. With such an arrangement leads which are generated within the furnace or Schnelzgefäßes Heat to thermal expansion forces in the stones 12. Since the end edges of the stones are essentially flush with one another or run in the same plane, the tangential or circumferential forces that act on the contact surfaces between adjacent stones are generated, to an enlargement of the diameter of the entire circular structure, whereby the Tamping mass 15 is pressed against the coil 16. As already

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explained, this can lead to constant deformation of the surrounding Induction coil 16, to damage the rammed earth and possibly to cracks in the furnace wall lead, which results in a leakage of metal.

A top view of a melting vessel or furnace, according to the invention is delivered is shown in FIG. 3. The furnace constructions shown in FIGS. 3 and 1 are correct with the exception of that in the case of the invention Construction according to FIG. 3 the touching surfaces the stones 22 now run along lines 23, which have a point with the radius of the circular structure Make angles. This is best seen in FIGS. 4 and 5 evident. The radius of the melting vessel or furnace is represented by line 24. It should be noted that the abutting surfaces 23 form uniformly acute angles θ with the radius 24-. When the stones expand as a result of the heat, every refractory brick experiences thermal expansion, which is tangential or circumferential forces F. (Fig. 5) and compressive stresses between the Stones. The tangential force F can be divided into two components F and F. The force F

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is perpendicular to the end surface or connection 23 between two stones, while the force F is along the contact surface runs between the two stones. Whenever the force F, reaches a value in which the Force F is greater than the frictional force on the contact surface between the stones, a sliding movement occurs between the stones and each stone is made to rotate clockwise. That means that the top and lower edges of the stone are caused to move a very small distance towards the one shown in phantom Position 26 in Fig. 5 to move in which this Process shown enlarged for the purpose of better explanation

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is. This rotation serves to reduce the gap between the stones and any diametrical or circumferential Enlargement of the original circular arrangement.

Pig. 5 it can be seen that conventional stones have corners, which are defined by the points a, b, c, d. Under these circumstances the force F and F do not occur,

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since the force F, is perpendicular to the line b c, v / elche runs on the radius of the circular structure. For this reason it is necessary to create a shape in which the forces F and F present, so that the stone shape then defined by the corners A, B, C, D. It is also necessary that the edges of the stones to the opposite ends of the circular structure defined by lines A-D and B-C do not extend through the center of the circular furnace, which is designated by the reference numeral 28 in FIG.

The angular relationship of the lines A-D and B-C is determined by first drawing a circle, which is provided with the reference numeral 30 in FIG. 4. The radius of this circle must be larger than 0 and smaller than the radius R of the inner circumference of the stones 22 formed wall. The radius of the circle 50 is preferably half the radius R on the inner circumference of the melting vessel, with which the size of the radius mentioned can be expressed as R. To determine the size and shape of the With the assumption that 20 stones are to be used to form the furnace wall, the circle 30 divided into 20 equal circular arc sections, 4 of which are shown in FIG. 4 and denoted by the reference numerals 32 A, 32 B, 32 C and 32 D are designated. By drawing radii

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through the points 34- sn the ends of each of the same size Arch sections 32 A, 32 B etc. can be the inner edges C-D of every stone bent in a circular arc was found. Then then the beveling of the edges 23 determines what to do with a line from the inner radial End D of an edge surface of a stone, for example, is drawn to a point 34 on the circle 30. (This point 34- is determined by the intersection with a radius, which intersects the inner radial end C of the other edge faces of the stone.) By repeating this process grid centers 36 and 38 are created, for example, which lie on a circle 4-0, the one with the circle 30 is concentric.

As already explained, the radius of the circle needs 30 not being equal to half the radius of the inner periphery of the furnace wall, although this is preferred. If the radius of the circle 30 increases, it grows with it also · the bevel or inclination of the edges 23. Will on the other hand, the radius of the circle 30 is reduced, so reduced the slope or inclination of the angle θ in Eig. 5 · ■

The exemplary embodiment described below merely represents represent a preferred embodiment of the invention, without the invention being limited to this exemplary embodiment were. Numerous modifications of the parts described are possible for the person skilled in the art without departing from the inventive concept.

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Claims (4)

Patent sayings 1. Wall of an essentially circular vessel for molten metal, characterized in that since the wall (10) consists of stacked, arched, arched refractory bricks (22), their contiguous KsntenflM.ch.en (23) both opposite ends form equal, acute angles (Θ) with the radius (24) of the vessel, so that'die through-thermal expansion in the stones (22) forces caused the sliding of the edge surface (23) of at least one of the stones (22) on the adjacent Create the edge surface of a neighboring stone without to increase noticeably at the radius (24) of the wall. 2. Wall according to claim 1, characterized in that that the edge surfaces (23) of each stone are inclined in the same direction. 3. Wall according to claim 2, characterized in that that the edge surfaces (23) through from the inner radial end (D) of an edge surface of a stone (22) drawn on a circle (30) to a point (34) Lines are defined, the circle (30) between the center (28) of the vessel and the inner circumference of the Wall (10) lies and the point (34) through the intersection of the circle (30) is defined with a radius (24) which is the inner radial end (C) of the other edge surface of the stone (22) cuts. 309831/0922 4. Wall according to claim 3, characterized geke-nnzeich net, the diameter of the "circle (30) is equal to the Is half the diameter of the inner circumference of the vessel. 5 · Wall according to at least one of claims 1 "to 4-, characterized in that the refractory lining (22) is surrounded by an induction coil (16) and that refractory ramming and insulation material is arranged around the induction coil. 309831/09 2.2 Leeward