EP1302551A1 - Cooling plate for shaft furnace - Google Patents

Abstract

Cooling plate has inner coolant channels (4). The inner side (6) facing the furnace axis is planar and the outer side (7) facing away from the furnace axis is formed as a convex progression. <??>Preferred Features: The outer side is composed of four to eight planar surfaces (8). The narrow sides run skew between the inner side and the outer side and dissect the furnace axis in the vertical planes (VE) extending into the narrow sides.

Description

The invention relates to a cooling plate for a shaft furnace.

DE 195 45 048 C2 discloses a cooling plate with internal coolant channels. The The cooling plate is made of copper or a low-alloy copper alloy. she can be made from a forged or rolled ingot. The cooling plate has vertical side flanges, which with other when mounting the cooling plate Cooling plates in a shaft furnace are assigned to one another in an overlapping manner. The horizontal cross section of the cooling plate is largely rectangular, so that between a cooling plate and the wall of a shaft furnace creates a gap that refractory ramming material or with specially cut refractory bricks is filled out.

In order to eliminate this disadvantage, EP 0 887 428 A1 covers one Cooling plate has been proposed in which the inside facing the furnace axis, as known per se, largely flat and that of the furnace axis away from the outside is convex. In terms of Dimensions of such a cooling plate, however, it is very difficult and extremely complex to manufacture, the arcuate curvature at the Outside of the cooling plate. Because the radii of multiple cooling plates are common also show tolerances, the position of the cooling plates in the shaft furnace is not clearly determined statically.

Furthermore, the narrow sides of the cooling plate are provided with vertical flanges, two different types of cooling plates are required. With one The cooling plate merges the largely flat inside into the side flanges, while with the other cooling plate, the curved outside into the side flanges transforms. The need for two different cooling plates increases the Production expense.

Starting from the prior art, the invention is based on the object to create a cooling plate for a shaft furnace that is easier to manufacture, can be more easily adapted to the curvature of the furnace wall and also better Guaranteed heat transfer conditions to neighboring cooling plates.

This object is achieved with the features specified in claim 1.

An essential feature of the invention is the fact that now the Outer side of the cooling plate facing away from the furnace axis in horizontal cross section as convex raised polygon is formed. This polyline consists of several flat surfaces with vertical lateral boundary edges, the Number of areas, in particular the cross section of the respective shaft furnace is dependent. Since now there is no radius, but surfaces on the outside there is a significant simplification of production. In addition, with the traverse associated the advantage that the outside better the inner Surface of a furnace wall can be adjusted. The vertical ones come Boundary edges between two surfaces on the furnace wall to the system and compensate for tolerances in the curvature of the furnace wall. A As a rule, backfeeding can be avoided. However, in individual cases the possibility of minimal backfeeding.

If in the above from a largely flat inside of the Cooling plate is mentioned, this can be understood to mean a completely smooth surface become. However, such an inside is also conceivable, at least partially with refractory material is clad and / or webs or grooves for holding has refractory material.

Due to practical circumstances, it is according to claim 2 of Advantage if the polyline consists of four to eight essentially flat surfaces is composed. With the wording, essentially manufacturing-related tolerances taken into account.

The embodiment further developing the basic idea of the invention according to the features of claim 3 allows the cooling plate with others To place cooling plates flat in the circumferential direction. On a backfill it is largely possible to dispense with two adjacent cooling plates. By the surface contact of the narrow sides of the cooling plates becomes clear Improvement of the heat transfer between neighboring cooling plates achieved especially when uneven loads in the shaft furnace occur. Only one type of cooling plate is required. The manufacturing and Assembly effort is reduced.

Figur 1

im schematischen horizontalen Querschnitt einen segmentartigen Ausschnitt aus einem Schachtofen und

Figur 2

in vergrößerter Darstellung in der Draufsicht eine einzelne Kühlplatte.

The invention is explained below with reference to an embodiment shown in the drawings. Show it:

Figure 1

in the schematic horizontal cross section a segment-like section from a shaft furnace and

Figure 2

an enlarged view of a single cooling plate in plan view.

In FIG. 1, the furnace wall 1 is otherwise not illustrated in detail Shaft furnace 2 designated. The furnace wall 1 is with cooling plates 3 made of copper or a copper alloy coated, which in a manner not shown with inner Coolant channels 4 are provided. The coolant channels 4 can be vertical and extend horizontally, the connecting lines of the coolant channels 4 to a Coolant supply are not shown in detail.

The cooling plates 3 are not shown on the inner sides 6 facing the furnace axis 5 illustrated in more detail covered with a refractory mass and / or with Provide webs or grooves which improve the adhesion of the refractory Materials are worked on.

As can be seen in more detail in FIG. 2, the one facing the furnace axis 5 is Inside 6 of a cooling plate 3 taking into account the above refractory Cladding largely flat. That facing away from the furnace axis 5 Outside 7 is (shown for clarity in strong oversubscription) in horizontal cross section formed as a convex raised polygon. This In the exemplary embodiment, polygon is composed of six essentially planes Surfaces 8 with vertical lateral boundary edges 9 together. to Clarification of these boundary edges 9 are in dash-dotted lines Lines highlighted.

The narrow sides 10 of the cooling plate 3 between the inside 6 and the outside 7 run obliquely. The vertical planes extending in the narrow sides 10 VE cut the furnace axis 5.

REFERENCE NUMBERS:

1 -

Oven wall from 2

2 -

shaft furnace

3 -

cooling plates

4 -

Coolant channels

5 -

furnace axis

6 -

Inside of 3

7 -

Outside of 3

8th -

Areas of 7

9 -

Boundary edges of 8

10 -

Narrow sides of 3

VE -

Vertical planes through 10 and 5

Claims (3)

Cooling plate for a shaft furnace, which are provided with internal coolant channels (4) is, the inside (6) facing the furnace axis (5) largely designed flat and the outside (7) facing away from the furnace axis (5) in horizontal cross section is designed as a convex raised polygon. Cooling plate according to claim 1, in which the polygon outside (7) formed from four to eight essentially flat surfaces (8) is composed. Cooling plate according to claim. 1 or 2, in which the narrow sides (10) run diagonally between the inside (6) and the outside (7), the the furnace axis extends in the narrow sides (10) extending vertical planes (VE) (5) cut.

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