EP1070559A1 - Method and device for changing the cross-sectional format of a strand in a continuous casting machine during operation - Google Patents

Abstract

Process for changing the format thickness of a cast billet (9) of a continuous casting plant in a casting operation comprises sequentially closing, in the casting direction, segments that follow in series at their linking joint (5-7) and segmentally extending the segments at their linking joints. AN Independent claim is also included for a device for carrying out the above process, which comprises an adjusting apparatus (11-14) equipped with devices to regulate the position and force.

Description

The invention relates to a method for changing the format thickness of the cast strand a continuous caster in continuous casting operation, with the strand below a mold on both sides with opposite roller carriers is in operative connection, which is in a sequence of roller-bearing, by means of articulated connections linked segments are divided and each Segment is adjustable in an angle to the cast strand, and being in one Starting position the entire strand guide to be changed to an even one Production format thickness is set. The invention also relates to a device to carry out the procedure.

Format thickness changes in the continuous caster during the casting operation indispensable for a production optimization. So far, however the casting speed for reducing or increasing the thickness temporarily reduced. This results in production losses and the whole The production process is at least briefly out of balance. In addition, only fixed, graded change in format thickness can be carried out.

soft reduction" genannt) bei einer Vorband-Gießanlage, wobei unterhalb der Stranggießkokille zu beiden Seiten des Gießstranges spiegelbildlich gegenüberliegende Rollenträger vorgesehen sind, deren Rollen mit dem Gießstrang in Wirkverbindung stehen. Jeder Rollenträger ist in einem feststehenden Rahmen angeordnet und in mehrere, rollentragende Segmente aufgeteilt, die mit Verstelleinrichtungen in Verbindung stehen. Die rollentragenden Segmente sind derart gelenkig aneinander gekoppelt, daß jedes Segment für sich in einem beliebigen Winkel zum Gießstrang verstellt und eingestellt werden kann, und daß zum allgemeinen Verstellen des Rollenträgers die obere Verstelleinrichtung dient. Es kann sich dabei um eine mechanische, hydraulische, oder mechanisch-hydraulische Verstelleinrichtung handeln.Document EP 0 450 391 B1 discloses a device for supporting a metal casting strand, in particular for soft reduction (also

soft reduction ") in a pre-casting system, whereby below the continuous casting mold on both sides of the casting strand opposite mirror carriers are provided, the rollers of which are in active connection with the casting strand. Each roller carrier is arranged in a fixed frame and divided into several, roller-bearing segments The roller-bearing segments are articulated to one another in such a way that each segment can be adjusted and adjusted at any angle to the casting strand, and that the upper adjustment device is used for general adjustment of the roller carrier act as a mechanical, hydraulic, or mechanical-hydraulic adjustment device.

Document DE 43 38 805 C2 discloses a method and an apparatus for operating a continuous caster, especially when casting the continuous caster for the production of thin slabs for hot strip rolling, with at least one pair of reducing rollers arranged downstream of the continuous casting mold, the or join the adjustable strand guide elements. The pair of reducing rollers is opened after a specified length of the hot strand a smaller gap width causing the sump to be squeezed. The hot strand becomes a sprue format with a thickness below the desired final format deformed thickness. The strand guide elements or the pair of reducing rollers are then - preferably successively - on the Thickness of the final format is set as soon as the less thick sprue format is complete has reached its setting range. The pair of reducing rollers is pressure controlled and is positioned on the final format after the strand guide has been adjusted.

Document EP 0 743 116 A1 discloses a vertical casting line for casting strands, comprising a mold and then an assembly at the outlet of the mold with casters, still assigned a variety of management units vertical roller segment, as well as a driver arrangement in connection with a horizontal segment of the casting line. The leadership units include at least the entire vertical segment of the casting line, with at least a portion the roles of the management units interact with actuators, which a process data unit can be mastered for a controllable soft reduction to ensure at least in the second part of the vertical segment.

Document DE 196 39 297 A1 discloses a method and a device for high-speed continuous casting plants with a reduction in strand thickness during solidification. In the method and the corresponding device for the continuous casting of strands, the cross-section of which is reduced during solidification, preferably casting using an oscillating mold, the strand cross-section is reduced linearly over a minimum length of the strand guide immediately below the mold. With the subsequent further reduction in the cross-section of the strand via the remaining strand guide, the soft reduction ", up to a maximum immediately before the final solidification or the bottom of the sump, a critical deformation of the strand can be switched off, taking into account the casting speed and the steel grade.

Starting from the aforementioned prior art, the object of the invention is based on a method and a device suitable for carrying it out for changing the format thickness of the cast strand of a continuous caster in continuous Casting operation to specify at which the casting speed for the Transition process to the format thickness change is not reduced, that is, constant production and casting conditions are maintained. The transition length of the strand during the change in format thickness is to avoid Production losses can be reduced comparatively. In all transitional situations The change in format thickness is intended to reduce breakthrough risks optimal strand support can be guaranteed.

• bei einer Formatdickenreduktion durch in Gießrichtung sequentielles Zufahren der einander in Reihe folgenden Segment an deren Gelenkverbindungen, und
• bei einer Formatdickenerhöhung durch sequentielles Erweitern in Gießrichtung der einander in Reihe folgenden Segmente an deren Gelenkverbindungen.

To achieve the object is proposed in a method of the type mentioned in the preamble of claim 1 for changing the format thickness of the cast strand of a continuous caster in continuous casting that the change in format thickness is carried out in a regulated sequence of adjustment steps of the segments, namely

• in the case of a reduction in format thickness by sequentially closing the segments following one another in the casting direction at their articulated connections, and
• in the case of an increase in format thickness by sequential expansion in the casting direction of the segments following one another at their articulated connections.

• die Gießgeschwindigkeiten wird für den Übergang nicht reduziert, daraus resultieren eine Erhöhung der Produktionsleistung im Vergleich zum Stand der Technik sowie konstante Produktions- und Gießbedingungen;
• die Übergangslänge des zu produzierenden Stranges wird verkürzt, wodurch die Produktionsverluste verringert werden;
• die Dickenänderungen können in stufenlos wählbaren Größen in einem weiten Verstellbereich in Abhängigkeit eines Produktionsprogrammes durchgeführt werden und ergeben somit eine hohe Flexibilität der Anlage;
• bei reduzierter Materialdicke mit durchlaufend abnehmender Keilform ermöglicht die Rollenschürze eine ausreichende Strangstützung, wobei die Auslaufseite entsprechend der Materialdicke nachgeführt wird, wogegen bei Formatdickenerhöhung erreicht wird, daß bei erhöhter Materialdicke in Folge durchlaufend zunehmender Keilform, die Rollenschürze eine ausreichende Strangstützung durchführt und die Auslaufseite entsprechend der Materialdicke nachgeführt wird.

The procedure described for changing the format thickness for continuous casting plants achieves the following:

• the casting speeds are not reduced for the transition, which results in an increase in production output compared to the prior art and constant production and casting conditions;
• the transition length of the strand to be produced is shortened, as a result of which the production losses are reduced;
• the changes in thickness can be carried out in infinitely selectable sizes within a wide adjustment range depending on a production program and thus result in a high flexibility of the system;
• with reduced material thickness with continuously decreasing wedge shape, the roller apron enables sufficient strand support, whereby the outlet side is tracked according to the material thickness, whereas if the thickness of the material increases, the roller apron provides sufficient strand support with increasing material thickness as a result of increasing wedge shape, and the outlet side correspondingly Material thickness is tracked.

In an embodiment of the method, it is proposed that in order to reduce the format thickness in a first adjustment phase at a constant casting speed - with the bottom tip of the strand 9 lying, for example, in segment n = 3 - segment n = 1 outlet side via the articulated connection with segment n = 2 inlet side is guided to the setpoint will, and
after reaching the target position - that is, the segment position for the target format - segment n = 2 outlet side is closed together with segment n = 3 inlet side in a second adjustment phase, and the segments n = 3, 4 to i are adjusted in a sequential sequence of similar steps to the target position.

Another embodiment of the method provides for increasing the format thickness in a first adjustment phase at constant casting speed - with the Bottom tip of the strand lies, for example, in segment n = 3 - segment n = 1 first Outlet side via the articulated connection with segment n = 2 inlet side setpoint is opened and after reaching the target position - d. H. the segment position for the target format - in a second adjustment phase segment n = 2 outlet side with segment n = 3 inlet side, and in sequential Follow similar steps to adjust the segments n = 3, 4 to i the target position is made.

A further embodiment of the method according to the invention provides that The segments are closed at a constant speed using dynamic position control is carried out, but a force threshold to be determined is not is exceeded.

Ds

= Formatdickenänderung

Ls

= Segmentlänge

Vgiess

= aktuelle Gießgeschwindigkeit.

It is further proposed according to the invention that the adjustment speed of the segments is calculated taking into account the permissible strand expansion limit values and the current casting speed in connection with the current format setting or in accordance with the volume flow of the strand resulting therefrom. The adjustment speed is advantageously calculated using the current casting speed, the segment length and the required adjustment path according to the formula V = Ds / Ls * Vgiess; mean:

Ds

= Change in format thickness

Ls

= Segment length

Vgiess

= current casting speed.

Further refinements of the method provide that the adjustment process, for example by means of the current cylinder pressures of hydraulic adjustment units is monitored and if the limit value is exceeded from position control to force control is switched, and after reaching the target position on position control is switched back.

And finally it is provided that due to the articulation of an outlet side of a segment with the entry side of the following segment whose adjustment speeds forcibly done synchronously.

In a device for changing the format thickness of the cast strand of a continuous caster, the strand below a mold on both sides with each other is in operative connection with opposite roller carriers, in a sequence of roller-bearing segments coupled to one another by means of articulated connections are divided and each segment at an angle to the cast strand is adjustable, the adjustment device is advantageously equipped with means for position or force control. The segments are expediently in the area their articulated connections between the outlet and inlet side with regulated as well as reversible hydraulic cylinders in operative connection.

Figur 1

in Form eines Stammbaums, unterteilt in einander folgende Phasen, den Funktionsverlauf einer Formatdickenreduzierung sowie

Figur 2

den Funktionsverlauf einander folgender Phasen für eine Formatdickenerhöhung.

Details, features and advantages of the invention result from the following explanation of an exemplary embodiment schematically illustrated in the drawings. Show it:

Figure 1

in the form of a family tree, divided into successive phases, the course of the function of a format thickness reduction and

Figure 2

the course of the function of successive phases for a format thickness increase.

FIG. 1 shows the functional sequence of the method for reducing the format thickness of a cast strand 9 in a continuous casting installation in continuous casting operation. The strand 9 is operatively connected below a mold 10 on both sides with oppositely opposed roller carriers 8, 8 ', which are divided into a sequence of roller-bearing segments 1 to 4 coupled to one another by means of articulated connections 5 to 7. Each segment 1 to 4 is adjustable at an angle to the cast strand 9. In a starting position, the entire strand guide to be changed is set to a uniform production format thickness, as this corresponds to the starting position shown. The change in format thickness is carried out in a regulated sequence of adjustment steps in segments 1 to 4. The format thickness is reduced by sequentially closing the segments 1 to 4 following one another in the casting direction, as can be seen from the phases 1 to 4 shown. Starting with segment 1 on the outlet side, the articulated connection 5 with segment 2 on the inlet side is closed in a setpoint-controlled manner.
After reaching the target position - i.e. the segment position for the target format - segment 2 outlet side with segment 3 inlet side is closed in a second adjustment phase, and segments 3 and 4 are adjusted in a sequential sequence of similar steps in accordance with phase 3 and 4, respectively For this purpose, the force means 11 each act on the articulated connection 5 in the direction of a narrowing of the cast strand 9, followed in phase 2 by the engagement of the adjusting device 12 in the direction of a narrowing of the strand cross-section, and also sequentially in phase 3 and phase 4, the adjusting devices 13 and 14 up to the overall reduced format thickness, according to the final state in phase 4.

From the representation of the course of functions for a reduction in format thickness the starting position, in which the entire Strand guidance in the casting operation is set to a production thickness X. The Casting speed is constant, the bottom of the sump is in segment 3.

At the start of the thickness reduction after phase 1, segment 1 will be - as I said Outlet side and segment 2 inlet side are setpoint-controlled at constant speed closed by means of dynamic position control. Here is a to be determined Force threshold not exceeded. The approach speed will taking into account the permissible elongation limit values and the current Casting speed in connection with the current format setting or after Calculation of the resulting volume flow of the line is calculated.

Ds

= Formatdickenänderung

Ls

= Segmentlänge

Vgiess

= aktuelle Gießgeschwindigkeit.

The adjustment speed to be observed is calculated using the current casting speed, the segment length and the required adjustment path according to the formula V = Ds / Ls * Vgiess; mean:

Ds

= Change in format thickness

Ls

= Segment length

Vgiess

= current casting speed.

Effective force monitoring, predictable, for example, using the current one Cylinder pressures of a hydraulic adjustment device monitors the adjustment process. If the force exceeds a calculated limit, from Position control switched to force control. After reaching the target position is switched back to position control accordingly.

The sequence described ensures that the material thickness is reduced the continuous decreasing wedge shape, the roller apron an adequate Supporting the strand 9 and that the outlet side corresponding to the Material thickness is tracked.

The existing swamp in segment 1, 2 and possibly 3 is not through interrupted the process. The strand support is provided in all phases by switching from position to force control.

In the following, the increase in format thickness according to the representation of the course of the function described in Fig. 2.

First of all, in the starting position before phase 1, the entire strand guide is in Casting operation set to a production thickness X. The casting speed is constant, the bottom of the swamp is in segment 3, the increase in thickness is with phase 1 started.

As soon as the target format of segment 1 outlet side and segment 2 inlet side at the end of phase 1, segment 2 outlet side is opened (phase 2).

The adjustment speed is calculated from the current casting speed, the segment length and the required adjustment path as for the reduction in format thickness.

Effective force monitoring, calculated using the current cylinder pressures hydraulic adjustment devices, permanently controls the adjustment process.

If the force exceeds a calculated limit, position control switched to force control. After reaching the target position will be accordingly switched back to position control.

The sequence described ensures that even with increased material thickness with continuously increasing wedge shape, the roller apron is sufficient Performs strand support for strand 9 and the outlet side according to the Material thickness is tracked.

Then segment 3 becomes the inlet side at the same time with the same adjustment speed as segment 2 outlet side opened, according to phase 2. Die Monitoring function is the same as for segment 2 outlet side.

As soon as the target format of segment 3 entry side is reached, segment 3 becomes Outlet side and segment 4 inlet side opened (phase 3). The calculation the casting speed and the monitoring are carried out as described above.

As soon as the target format of segment 4 is reached, segment 4 becomes Run-out side opened (phase 4). Monitoring is calculated as previously described.

Claims (11)

Method for changing the format thickness of the casting stretcher (9) of a continuous casting plant in continuous casting operation (9), the strut below a mold (10) being operatively connected on both sides to mutually opposite roller carriers (8, 8 '), which in a sequence of roller-bearing, segments (n = 1 to i) coupled to one another by means of an articulated connection (5-7) and each segment can be set at an angle to the cast strand (9), and in a starting position the entire strand guide to be changed is set to a uniform production format thickness ,
characterized, that the format thickness change in a regulated sequence of adjustment steps of the segments (n = 1 to i) a) in the event of a change in format thickness by sequentially closing the segments in succession in the casting direction (n = 1 to i) at their articulated connection (5-7), and b) in the case of an increase in format thickness by segmental widening in the casting direction of the segments which follow one another in series (N = 1 to i) at their articulated connection (5-7) is made. Method according to claim 1,
characterized, that for format reduction in a first adjustment phase at constant casting speed - with the bottom of the strand (9) being, for example, in segment n = 3 - segment n = 1 outlet side via the articulated connection (5) with segment n = 2 inlet side is brought to the setpoint, and after reaching the target position - ie the segment position for the target format - segment n = 2 outlet side is moved in together with segment n = 3 inlet side in a second adjustment phase, and the segments 3, 4 to i are adjusted to the target position in a sequential sequence of similar steps. Method according to claim 1,
characterized, that in order to increase the format thickness in a first adjustment phase at a constant casting speed - with the bottom of the strand, for example, in segment n = 3 - segment 1 on the outlet side is first brought up via the articulated connection (5) with segment n = 2 inlet side, and after reaching the target position - i.e. the segment position for the target format - segment n = 2 outlet side with segment n = 3 inlet side is opened in a second adjustment phase, and segments 3, 4 to i are adjusted to the target position in a sequential sequence of similar steps becomes. Method according to one or more of claims 1 to 3
characterized, that the closing of the segments (n = 1 to i) is carried out at constant speed by means of dynamic position control, a force threshold to be determined not being exceeded. Method according to one or more of claims 1 to 4,
characterized, that the adjustment speed of the segments is calculated taking into account the permissible strand expansion limit values and the current casting speed in connection with the current format setting or in accordance with the volume flow of the strand resulting therefrom. Method according to claim 5,
characterized, that the adjustment speed is calculated using the current casting speed, the segment length and the required adjustment path using the formula: V = Ds / Ls * Vgieß; mean:

Ds

= Change in format thickness

Ls

= Segment length

Vgieß

= current casting speed

Method according to one or more of claims 1 to 6,
characterized, that the adjustment process is monitored, for example by means of the current cylinder pressures of hydraulic adjustment units, and switches from position control to force control when the limit value is exceeded, and is switched back to position control after the target position has been reached. Method according to one or more of claims 1 to 7,
characterized, that as a result of the articulation (5-7) of an outlet side of a segment n = 1 with the inlet side of the following segment n = 2, the adjustment speed of which is necessarily synchronous. Method according to one or more of claims 1 to 7,
characterized, that the hydraulically controlled adjustment begins on segment n = 1 on the outlet side and the hydraulically controlled adjustment on segments n = 2 to n = i continues sequentially on both the inlet side and the outlet side. Device for changing the format thickness of the cast strand of a continuous casting installation, the strand (9) being in operative connection below a mold (10) on both sides with mutually opposite roller carriers (8, 8 '), which in a sequence of roller-bearing, by means of articulated connection (5-7 ) coupled segments (n = 1 to i) are divided and each segment (5-7) can be set at an angle to the cast strand (9), in particular for carrying out the method according to claims 1 to 9,
characterized, that the adjusting device (11-14) is equipped with means for position or force control. Device according to claim 9,
characterized, that the segments (n = 1 to i) are in operative connection in the region of their articulated connections (5-7) between the outlet and inlet side with regulated and reversible hydraulic cylinders, the segment n = 1 only interacting with such a hydraulic cylinder on the outlet side.

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