EP0978336A1 - Mould wall of a continuous casting plant - Google Patents

Abstract

The bolt head cross-section of at least one bolts (6, 7) is larger than the bolt throat cross-section. The mold inner plate (2) has a nut (14) tapering to the water chamber (1) for receiving the bolt head (7'') of the bolt (7). Mold wall of a continuous casting apparatus for casting steel rods comprises a water chamber (1) and a mold inner plate (2) joined to the water chamber by bolts (6, 7). The bolts (6, 7) each have bolt throat (6', 7') penetrating the water chamber (1), and a bolt head (6'', 7'') held in the mold inner plate. The bolt head cross-section of at least one bolts (6, 7) is larger than the bolt throat cross-section. The mold inner plate (2) has a nut (14) tapering to the water chamber (1) for receiving the bolt head (7'') of the bolt (7).

Description

The present invention relates to a mold wall of a continuous caster for casting a metal strand, especially one Steel strand, in one pouring direction, with a water box and a mold inner plate connected to the water box via bolts, the bolts each penetrating the water tank Bolt neck with a bolt neck cross section and one in the mold inner plate held bolt head with a bolt head cross section exhibit.

Such a mold wall is, for example, from EP-A1 0 011 537 known.

To hold the bolt head in the mold inner plate are in State of the art tapped holes in the mold inner plate cut. Threaded inserts are screwed into the threaded holes, which in turn have a threaded hole. In these Threaded holes are then screwed in threaded bolts.

This approach has several disadvantages. In particular, the Effort to insert the thread inserts into the mold inner plate considerably. Furthermore, the inner mold plate is a wearing part. If the inner mold plate is worn, one will fall large amount of hard-to-dispose of material because the inner mold plate usually made of copper, but the thread inserts made of Are steel. The thread inserts are also sensitive against bending forces.

The object of the present invention is a mounting option for the bolts in the mold inner plate create which the above Disadvantages eliminated.

The object is achieved in that the bolt head cross section at least one of the bolts is larger than the bolt neck cross-section this bolt and that the inner mold plate one to the water tank tapering groove for receiving the bolt head this Has bolt.

The groove can optionally be continuous or in at least one Taper the step towards the water tank.

If the groove extends perpendicular to the direction of casting, restrict the arrangement of the groove does not include the arrangement of cooling channels.

If the groove extends essentially over the entire inner mold plate extends, the production of the groove is particularly simple.

Figur 1

eine Kokillenwand im Schnitt von oben,

Figur 2

die Kokillenwand von Figur 1 im Schnitt von der Seite und

Figur 3

eine weitere Kokillenwand im Schnitt von oben.

Further advantages and details emerge from the remaining claims and the following description of an exemplary embodiment in conjunction with the drawings. In principle, the following show:

Figure 1

a mold wall in section from above,

Figure 2

the mold wall of Figure 1 in section from the side and

Figure 3

another mold wall in section from above.

According to Figures 1 and 2, a mold wall of a continuous caster a water box 1 and an inner mold plate 2. The Mold inner plate 2 has an inner wall 3, which the water tank 1 is facing. It also has an outer side 4, which faces a steel strand 5 which is in a casting direction x is poured. The pouring direction x extends in the figure 1 into the image plane and runs from top to bottom in FIG below.

The water tank 1 and the inner mold plate 2 are via bolts 6, 7 connected to each other. The bolts 6, 7 each have a bolt neck 6 ', 7' and a bolt head 6 '', 7 ''. They also point out Bolt ends 8 on. The pin necks 6 ', 7' clearly penetrate the water box 1. The bolt heads 6 '', 7 '' are in the mold inner plate 2 held. Cap nuts 9 are screwed onto the bolt ends 8. To seal the water box 1 are between the cap nuts 9 and the water box 1 sealing washers 10 are arranged.

According to Figure 1, the inner mold plate 2 has on its inside 3 webs 11 on. The webs 11 run parallel to the casting direction x. Forms between two adjacent webs 11 each a cooling channel 12 for a cooling liquid, for. B. water. The webs 11 are equidistant from each other. The cooling channels 12 each have the same cross section.

According to FIG. 2, a threaded bolt 6 is inserted into a threaded insert 13 screwed, which in turn in the mold inner plate 2 is screwed in. This pin 6 is thus conventional Way held in the mold inner plate 2.

To hold the other bolt 7 in the inner mold plate 2 on the other hand, this has a groove 14. The groove 14 extends perpendicular to the pouring direction x essentially over the entire Mold inner plate 2. The groove 14 has a shoulder 14 '. she tapers to the water box 1 in a mare. Alternatively could the groove 14 towards the water tank 1 also continuously rejuvenate.

Corresponding to the groove 14 is the bolt head cross section of the other bolt 7 larger than the bolt neck cross-section of this bolt 7. The other bolt 7 can thus when tightening the Cap nuts 9 occurring tensile forces on the inner mold plate 2 transfer.

Figure 3 shows a similar configuration as Figure 1. The same Elements are therefore provided with the same reference symbols. The essential The difference between Figure 1 and Figure 3 is that the inner mold plate 2 with the outside of the water tank 1 forms an angle ∝. To compensate for this angle, point the passage points 15 where the bolt 7 the water tank 1 penetrates a significantly larger cross section than that Bolt 7. In addition, the sealing washer 10 is wedge-shaped, where the wedge angle corresponds to the angle ∝.

According to the embodiment, only one of the bolts 6, 7, namely the bolt 7, attached after the training according to the invention. It but could also several, even all bolts 6, 7 according to the invention be held in the mold inner plate 2.

There are several advantages with the mold wall according to the invention. In particular, the insertion of thread inserts in the Mold inner plate 2 not required. Furthermore, the wearing part Mold inner plate 2, which usually consists of copper, after disassembly not with the threaded inserts 13 made of steel contaminated. In addition, there is with the invention Design no longer a risk of knocking out thread inserts 13 when bending forces act on the bolt 7.

Reference list

1

Water tank

2nd

Mold inner plate

3rd

inside

4th

Outside

5

Steel strand

6, 7

bolt

6 ', 7'

Bolt necks

6 '', 7 ''

Bolt heads

8th

Bolt ends

9

Cap nuts

10th

Sealing washers

11

Walkways

12th

Cooling channels

13

Thread inserts

14

Groove

14 '

shoulder

15

Passage points

∝

angle

x

Pouring direction

Claims (7)

Chill wall of a continuous caster for casting a metal strand (5), in particular a steel strand (5), in a casting direction (x), with a water tank (1) and a mold inner plate (2) connected to the water tank (1) via bolts (6, 7) ), the bolts (6, 7) each having a bolt neck (6 ', 7') penetrating the water tank (1) with a bolt neck cross section and a bolt head (6 '', 7 '') held in the mold inner plate with a bolt head cross section,
characterized by
that the bolt head cross section of at least one of the bolts (6, 7) is larger than the bolt neck cross section of this bolt (7) and that the mold inner plate (2) has a groove (14) tapering towards the water tank (1) for receiving the bolt head (7 '' ) of this bolt (7). Mold wall according to claim 1,
characterized by
that the groove (14) tapers continuously towards the water tank (1). Mold wall according to claim 1,
characterized by
that the groove (14) tapers towards the water tank (1) in at least one step. Mold wall according to claim 1, 2 or 3,
characterized by
that the groove (14) extends perpendicular to the casting direction (x). Mold wall according to claim 4,
characterized by
that the groove (14) extends essentially over the entire inner mold plate (2). Mold wall according to one of claims 1 to 5,
characterized by
that the mold inner plate (2) has webs (11) running parallel to the casting direction (x) to form cooling channels (12). Mold wall according to claim 6,
characterized by
that the webs (11) are equidistant from each other.

Images