EP1021261A1

EP1021261A1 - Method and device for producing slabs in different sizes

Info

Publication number: EP1021261A1
Application number: EP98954186A
Authority: EP
Inventors: Ulrich Genge
Original assignee: SMS Demag AG
Current assignee: SMS Siemag AG
Priority date: 1997-09-15
Filing date: 1998-09-11
Publication date: 2000-07-26
Anticipated expiration: 2018-09-11
Also published as: ES2174503T3; WO1999014004A1; DE19741131A1; JP2001516645A; DE19741131C2; KR20010030606A; US6382304B1; ATE217821T1; AU1142899A; EP1021261B1; DE59804207D1

Abstract

A process for producing slabs in a continuous casting installation and a continuous casting mold, in particular for the continuous casting of steel slabs, having wide side walls and narrow side walls which delimit the slab mold cavity least one of the wide side walls movable transversely with respect to the mold axis and at least one of the narrow side walls, which can be clamped in between the wide side walls, displaceable transversely with respect to the mold axis in order to change the shape of the strand cross section by an adjustment drive acting in the horizontal direction. Each narrow side is composed of at least two wedge-shaped parts. Mutually facing contact surfaces extend over the entire length (height of the narrow side wall) of each part and the plane of the mutually touching surfaces faces in substantially the same direction as the corresponding wide side inner surfaces (51, 52) assigned to one another with a rotational angle of gamma=0 to 30°. Each case at least one wedge-shaped part is connected to an adjustment device acting in the conveying direction of the strand.

Description

Method and device for producing slabs of various formats

description

The invention relates to a process for the production of slabs, in particular made of steel in different formats, in a stationary mold having a wide and narrow side walls in a continuous casting installation, in which, in order to change the format, the contact pressure on the corresponding mold side walls is reduced and at least one of the mold walls is more appropriate Contact force is moved into the desired position and a corresponding device for performing the method

From DE-OS 27 02 976 a plate coke for the continuous casting of steel is known, in which the narrow sides can be clamped between the broad side walls by means of a clamping device. In the adjustment area of the narrow side walls of this device, the broad side walls are arranged parallel to one another. A change in the distance between the broad side walls and a change in format of the slab with the installed rare walls is not possible with this

Furthermore, from EP 0 658 387 A1 a mold for the continuous casting of steel strip is known, the broad side walls of which are formed on the side of a funnel-shaped pouring area with inclined surfaces approaching one another towards the narrow sides

While in the former case, when the narrow side walls are moved, the wide side walls maintain their distance from one another so that the distance of the rollers in the subsequent strand guide structure does not have to be adjusted, in the latter example, when the narrow side walls are adjusted, the wide side walls move relative to one another

A disadvantage of the known solutions is that in the first case the slab thickness does not increase or decrease and in the second case that the adjustment of the slab thickness can only be carried out with a simultaneous change in the slab width, ie that with a thickness adjustment inevitably narrower or wider slabs are formed.

Knowing the disadvantages described, the invention has set itself the goal of enabling a method and a corresponding device for producing slabs not only in any width, but also in any thickness.

The invention achieves this goal by the characterizing features of the method claim 1 and the device claim 3.

According to the invention, in order to change the format of the slab, the distances between the narrow side walls and thus the width of the slab and / or the distances between the broad side walls and thus the thickness of the slab can be changed as desired. In an advantageous embodiment, the format is set so that the load on the strand shell is optimized between two format changes in that the

Scope in the respective height of the mold is kept approximately constant.

The continuous casting mold required to carry out the method is composed of two broad side walls and two narrow side walls, the narrow side walls being assembled from wedge-shaped parts. The narrow side walls consist of at least two wedge-shaped strips, the outer contact surfaces of which lean against the inner wall of the broad sides and the mutually facing contact surfaces are guided over the entire length of the individual parts.

The mutually facing contact surfaces are guided in a plane which has essentially the same direction as the corresponding broad side surfaces and which face each other at an angle of rotation of γ between 0 and 30 °. The angle setting deviating from 0 ° supports the pressing of the narrow side to the broad side walls.

In an advantageous embodiment, a groove and a tongue are provided at this point. The wedge angle α of the side surface parts is preferably chosen between 3 and 6 °. This angular range proves sufficient to be more appropriate vertical adjustment of part of the narrow sides to set the desired thickness of the slab

The narrow sides adjustable according to the invention for different slab thicknesses can be used not only with broad sides which are arranged parallel to the wall in the narrow side adjustment region, but also with broad sides associated with one another in the narrow side adjustment region in a wedge shape. In an advantageous embodiment, a cone angle β of 0.2 ° to 2.5 is used here ° provided

However, the adjustable narrow sides according to the invention can be used not only for vertical stationary molds, but also for molds of a continuous sheet caster.With this configuration, the wedge-shaped parts on their mutually facing surfaces follow a constant radius, the center of which is different from that of the individual broadside radii in the paired adjustment movement mmde - At least one of the respective narrow side parts are moved on an arc that follows the radius of the adjusted broad side

In a further advantageous embodiment, three parts are used for each narrow side, the middle wedge being configured symmetrically. The contact surfaces of the individual side parts can be arranged parallel to the broad side surfaces or also conically to them. When using a middle part with a double-conical configuration, one is particularly special intimate jamming of the side parts achieved On the other hand, this means that when the narrow sides are adjusted, the broad sides in the adjustment range are not exposed to any movements or only to horizontal movements

In order to achieve horizontal movement of the narrow sides without changing their thickness, it is proposed to arrange a coupling between the adjusting device and the movable wedge-shaped part

An example of the invention is set out in the accompanying drawing

Figure 1 is a plan view and

Figure 2 front view of a straight mold Figure 3 and 4 individual side panels and Figure 5 is a side view of a mold of a sheet caster

FIG. 1 shows a wide side 21 of a mold 10 with the pouring area 24 and adjustment areas 23 provided at both ends. Narrow sides 31 and 32 are arranged in these adjustment areas 23, which can be moved transversely to the strand-feeding direction S by horizontal adjustments 36 and parallel to by vertical adjustments 37 and 38 Strand direction S are movable Between the vertical adjustment 38 and the narrow side 32, a coupling 39 is arranged. In the right part of the picture, the vertical adjustment 38 is arranged in the axial direction of the narrow side 32, in the left part the vertical adjustment 37 is provided parallel to the main axis of the narrow side 31

FIG. 2 shows the top view of the mold. In the present case, only one width wall is designed to be movable, with horizontal adjustments 25, 26 being provided on the broad side 21. Here, the slab mold cavity 11 is enveloped by the broad sides 21 and 22 and the narrow sides 31 and 32 31, 32 are composed of a first wedge-shaped part 33 and a second wedge-shaped part 34. The individual wedge-shaped parts 33 and 34 can be moved in the area of the broad inside surfaces 51 and 52 transversely to the strand-feeding direction by horizontal adjustments 36. The one provided with both sides of the pouring area 24 Adjustment area 23 is flat in the direction of strand feeding direction S In the present illustration, the transition from the adjustment area to the pouring area is shown relatively abruptly in the left area via an edge designed as a radius. In the right part of the picture, the pouring area has a turning point at its edges W on which merges into a circular arc, which merges tangentially into the straight line adjustment region 23

Figure 3 shows a sketch of the structure of the narrow side 31, namely in the upper part of the image a to c in the side view and Figure 4 a-c in section

The narrow side 31 is composed of the wedge-shaped parts 33 and 34 with position a. The contact surfaces 41 and 42 are arranged at a wedge angle α with respect to the outer contact surfaces 45

FIG. 4 shows the section AA with the broad side parts 21 and 22, between which the wedge-shaped parts 33 and 34 are clamped. Chen 45 are based on the inner wall in the adjustment area 23 of the broad side 21. The facing contact surfaces 41, 42 are located in a plane E, which are arranged at an angle of rotation γ to a plane located between opposite adjustment surfaces of the broad sides 21 and 22.

The remaining side views in FIG. 3 show a narrow side 31 constructed from a total of three wedge-shaped parts 33 to 35. The tip of the middle part 35 can point both upwards and downwards.

The mutually facing contact surfaces 33 and 44 can be arranged parallel to one another or, as shown in section BB, have an angle of rotation γ which gives the wedge-shaped part 35 a conical shape in the horizontal direction.

Furthermore, FIG. 4 shows an embodiment of the facing contact surfaces 41, 42 of the wedge-shaped parts 33, 34 and 71, 72, in which a groove 78 is provided, into which a tongue 79 projects.

FIG. 5 shows broad sides 61, 62 of a continuous sheet casting mold with the radii Ri and R _a . The inner broad side 61 is adjustable by a horizontal adjustment 36.

Narrow side parts 71 and 72 are clamped between the broad sides 61 and 62, the contact surfaces 91, 85 and 92, 86 touching each other.

The contact surfaces 81 and 82 facing one have a radius R _m . The

Radii R and R _a usually do not have the same center point Mj or M _a from which the center point of the radius R _m , namely M _{m, is} significantly different.

Position list

10 mold

11 slab mold cavity

Broadside straight mold

21 first broadside

22 second broadside

23 Adjustment area 24 Pouring area

25 first horizontal adjustment

26 second horizontal adjustment

Narrow sides straight mold 31 first narrow side

32 second narrow side

33 first wedge-shaped part

34 second wedge-shaped part

35 third wedge-shaped part 36 horizontal adjustment

37 vertical adjustment (31)

38 vertical adjustment (32)

39 clutch

Flat narrow sides straight mold

41 facing contact surface (33)

42 facing contact surface (34)

43 first facing contact surface (35)

44 second facing contact surface (35) 45 outer contact surface

Flat broad sides straight mold

51 broadside inner surface (21)

52 broadside inner surface (22) Broadside arc mold

61 first broadside

62 second broadside

Narrow-sided arc mold

71 first narrow side

72 second narrow side

73 first wedge-shaped part

74 second wedge-shaped part

75 third wedge-shaped part

78 groove

79 spring

Contact surfaces of arc mold

81 facing contact surface (71)

82 facing contact surface (72)

85 first outer contact surface

86 second outer contact surface

Flat broadside arc mold

91 broadsides (71)

92 broadsides (72)

R radius

E level

S strand conveying direction

I main mold axis i inner radius

Ra outer radius

Rm center radius

Wed. center of the radius Rj

M _a center point of the radius R _a

M _m center of the radius R ".

W turning point

T tangent α wedge angle of the side surface parts ß cone angle of the broad sides γ angle of rotation

Claims

Claims:

1 Process for the production of slabs, in particular made of steel, in different formats in a stationary mold of a continuous casting plant which has wide and narrow side walls, in which, in order to change the format, the contact pressure is reduced to the corresponding mold side walls and at least one of the mold walls with adequate contact pressure in the desired position is moved, characterized in that, regardless of the movement of the narrow side walls into a desired slab width position, the width (transverse extent) of the narrow sides can be predetermined

2 The method according to claim 1, characterized in that the adjustment of the slab format is adjusted in such a way that the circumference of the slab is kept substantially constant in the corresponding contour lines by changing the slab width and the slab thickness

Continuous casting mold, in particular for the continuous casting of steel slabs, with broad side and narrow side walls delimiting the slab mold cavity, at least one of the broad side walls being movable transversely to the mold axis and at least one of the clampable between the broad side walls

Narrow side walls can be moved transversely to the mold axis to change the shape of the strand cross section by means of an adjusting lever acting in the horizontal direction, for carrying out the method according to claim 1, characterized in that each narrow side (31, 32) consists of at least two wedge-shaped parts

(33, 34) that the facing contact surfaces (41, 42) extend over the entire length (height of the narrow side wall) of each part (33, 34) and the plane (E) of the contacting surfaces (41, 42) in the essentially in the same direction as the corresponding broad Side inner surfaces (51, 52) are assigned to each other at an angle of rotation of γ = 0 to 30 ° and that at least one wedge-shaped part (33, 34, 35) is connected to an adjusting device (37, 38) acting in the strand conveying direction (S).

4. Continuous casting mold according to claim 3, characterized in that the wedge angle α of the surfaces of the side parts (33-35) is in the range α = 3 ° to 6 °.

5. Straπggießkokille according to claim 3, characterized in that the narrow sides (31, 32) are conically divergent in the direction of the slab mold cavity (1 1) away, the narrow sides (31, 32) having outer contact surfaces (45) with the inner surfaces

(51, 52) of the broad sides (21, 22) correspond in the adjustment area (23).

6. Continuous casting installation according to claim 5, characterized in that the cone angle ß of the broad sides (21, 22) in the narrow side adjustment range

(23) is of the order of β = 0.2 ° to 2.5 °.

7. Continuous caster according to claim 3, characterized in that the wedge-shaped parts in a mold for a sheet caster

(73, 74) have corresponding radii (R _m ) with respect to their abutting contact surfaces, while the outer contact surfaces (85, 86) of the wedge-shaped parts (71, 72) of the converging inner surfaces (91, 92) of the mold broad sides (61, 62) in Adjustment range are adjusted.

8. Straπggießanlage according to any one of the above claims, characterized in that the contact inner surface (41, 81) of a wedge-shaped part (31, 71) has a groove (78) and the corresponding inner surface (42, 82) of the other wedge-shaped part (34, 72) has a corresponding spring (79).

9. Continuous caster according to one of the above claims, characterized in that each narrow side (31, 32) is composed of a total of three wedge-shaped parts (33-35).

10. Continuous caster according to claim 3, characterized in that the parts (33, 34, 71, 72) are connected to the adjusting device (37 or 38) in such a way that they can be moved horizontally without hindrance.

11. Continuous caster according to claim 9, characterized in that a coupling (39) is provided between the adjusting device (37, 38) and the movable wedge-shaped part (33, 72).