EP0965401A1 - Mould wall for a continuous casting mould - Google Patents

Abstract

The plate (1) forming the inner wall of the ingot mold, in a continuous casting assembly, has a water box bolted to it. The side (3) of the inner mold wall plate (1) towards the water box has webs (5) with grooves (6) between them to take filling bodies (7). The filling bodies (7) have at least one spreader with spreader plates (10) and a spreader cone (12), to give a friction bond between the filling body (7) and inner ingot mold plate (1). The friction bond is maintained by a spring (13). The mounting bolts are between the filling bodies (7) and the water box.

Description

The present invention relates to a mold wall of a continuous casting mold, which consists of an inner mold plate and one with the Mold inner plate connected by screwed water box there, the inner mold plate on the the water tank facing side webs with grooves running between them has, in which filler pieces are arranged.

Such a mold wall is generally known. The grooves serve thereby as cooling channels for a cooling liquid, usually water. The fillers serve to reduce the cross section of the channel, see above that the flow rate of the coolant in the cooling channel elevated. But they have no supporting function. The attachment of the The inner mold wall with the water tank is made using a variety of screws that at least partially penetrate the water tank and which are screwed into threaded pieces, which in the Mold inner wall are arranged.

The prior art mold wall has several disadvantages on. In particular, the introduction of the threaded pieces in the Mold inner plate very complex. There is also the inner mold plate usually made of copper, whereas the threaded pieces Are steel. When replacing a worn inner mold plate there is a large amount of contaminated copper which are difficult to recycle can.

The object of the present invention is a mold wall to create a continuous casting mold, which has the disadvantages of Avoid prior art.

The object is achieved in that the filler pieces have at least one Expansion element for the frictional connection of the filler pieces with the Have mold inner plate and that the screw connections are arranged between the water tank and the filler pieces.

Because of this design of the mold wall, the wearing part Mold inner plate only the webs to form the Have cooling channels. Further processing of the inner mold plate, in particular the introduction of screw connections in the inner mold plate is not required. When dismantling the wearing part "mold inner plate" takes place when the An automatic separation of the copper mold inner plate from the steel parts. So the mold inner plate is easier to recycle.

If the expansion element has at least one tapered expansion plate has, which by means of a screw on one of the webs can be pressed, is the structural design of the expansion element particularly easy.

The spreading element can be tapered, for example tapered spreading washer that take place between the screw and the spreading plate is arranged. Alternatively or in addition the screw may be tapered at least in one section.

If a spring element is assigned to the expansion element, is also if the mold wall is heated, the frictional engagement is maintained Connection between the filler pieces and the webs guaranteed.

Figur 1

eine Kokillenwand einer Stranggießkokille,

Figur 2

eine Schraubverbindung und

Figur 3

ein Spreizelement.

Further advantages and details emerge from the following description of an exemplary embodiment in conjunction with the drawings. Show in principle

Figure 1

a mold wall of a continuous casting mold,

Figure 2

a screw connection and

Figure 3

an expansion element.

According to FIG. 1, a mold wall consists of a continuous casting mold an inner mold plate 1 and a water tank 2. The inner mold plate 1 has an inside 3 and an outside 4. The outside 4 is the one to be cast during operation of the continuous casting mold liquid metal, especially steel, facing. The inside 3, however, faces the water tank 2. The inner mold plate 1 is connected to the water box 2 via screw connections. The screw connections are shown in FIG. 1 by the dashed lines Lines indicated.

On its inside 3, the inner mold plate 1 faces vertically extending webs 5. Accordingly, run between the webs 5 Grooves 6. As can be seen particularly clearly from FIG Filling pieces 7 arranged in the grooves. At the fillers 7 are Welded threaded bolt 8, by means of which the filler pieces - and as will be described later - thus also the inner mold plate 1 are screwed to the water tank 2. The screw connections between the inner mold plate 1 and the water tank 2 are thus arranged between the filler pieces 7 and the water tank 2.

The connection between the filler pieces 7 and the inner mold plate 1 can be seen from FIG. 3. According to Figure 3, this Filler 7 a spreading element 9. By means of the expansion element 9 is the filler 7 with the inner mold plate 1 (or the webs 5) can be connected by friction. For this purpose, the expansion element 9 has two tapered expansion plates 10, which by means of a screw 11 can be pressed against the webs 5. The pressing against the webs 5 can thereby, as shown in Figure 3, take place in that between the screw 11 and the expansion plates 10 tapered spreading washers 12 are arranged. Alternatively or additionally, the Screw 11 also - at least in one section - conical be tapered.

To ensure that the frictional connection between the Web 5 and the filler 7 even when the mold wall is heated is securely maintained, the expansion element 9 is a Associated spring element 13. According to the exemplary embodiment, this is Spring element 13 as an O-ring made of a permanently elastic material trained, which the temperatures occurring during continuous casting resists and has a sufficient thickness.

There are a number of advantages with the mold wall according to the invention reachable. E.g. there are no holes on the back of the Mold inner plate 1 required. Furthermore, no thread inserts are required be inserted into the mold inner plate. The grooves 6, that serve as cooling channels can be an even distance from each other. For used mold inner plates 1 can a higher scrap income can be achieved as it is free of steel contaminants are. Finally, the threaded bolts 8 do not practice thermal influence on the inner mold plate 1, since it is not are welded to this, but to the filler pieces 7.

Reference list

1

Mold inner plate

2nd

Water tank

3rd

inside

4th

Outside

5

Walkways

6

Grooves

7

Filling pieces

8th

Threaded bolt

9

Expansion element

10th

Spreading plates

11

screw

12th

Spreading washers

13

Spring element

Claims (5)

Mold wall of a continuous casting mold, which consists of an inner mold plate (1) and a water box (2) connected to the inner mold plate (1) by screw connections, the inner mold plate (1) on its side facing the water box (2) (3) webs (5) with grooves (6) running in between, in which filler pieces (7) are arranged,
characterized by that the filler pieces (7) have at least one expansion element (9) for frictionally connecting the filler pieces (7) to the mold inner plate (1) and that the screw connections between the filler pieces (7) and the water tank (2) are arranged. Mold wall according to claim 1,
characterized by that the expansion element (9) has at least one tapered expansion plate (10) which can be pressed onto one of the webs (5) by means of a screw (11). Mold wall according to claim 2,
characterized by that between the screw (11) and the expansion plate (10) a tapered expansion disc (12) is arranged. Mold wall according to claim 2 or 3,
marked thereby m that the screw (11) is tapered at least in one section. Mold wall according to one of claims 1 to 4,
characterized by that the expansion element (9) is assigned a spring element (13) for maintaining the frictional connection when the mold wall is heated.

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